xref: /freebsd/sys/kern/uipc_ktls.c (revision 05a1d0f5d7ac8400975d1eaa30a718a1ff48b139) 
1b2e60773SJohn Baldwin /*-
2b2e60773SJohn Baldwin  * SPDX-License-Identifier: BSD-2-Clause
3b2e60773SJohn Baldwin  *
4b2e60773SJohn Baldwin  * Copyright (c) 2014-2019 Netflix Inc.
5b2e60773SJohn Baldwin  *
6b2e60773SJohn Baldwin  * Redistribution and use in source and binary forms, with or without
7b2e60773SJohn Baldwin  * modification, are permitted provided that the following conditions
8b2e60773SJohn Baldwin  * are met:
9b2e60773SJohn Baldwin  * 1. Redistributions of source code must retain the above copyright
10b2e60773SJohn Baldwin  *    notice, this list of conditions and the following disclaimer.
11b2e60773SJohn Baldwin  * 2. Redistributions in binary form must reproduce the above copyright
12b2e60773SJohn Baldwin  *    notice, this list of conditions and the following disclaimer in the
13b2e60773SJohn Baldwin  *    documentation and/or other materials provided with the distribution.
14b2e60773SJohn Baldwin  *
15b2e60773SJohn Baldwin  * THIS SOFTWARE IS PROVIDED BY THE AUTHOR AND CONTRIBUTORS ``AS IS'' AND
16b2e60773SJohn Baldwin  * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
17b2e60773SJohn Baldwin  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
18b2e60773SJohn Baldwin  * ARE DISCLAIMED.  IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE
19b2e60773SJohn Baldwin  * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
20b2e60773SJohn Baldwin  * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS
21b2e60773SJohn Baldwin  * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION)
22b2e60773SJohn Baldwin  * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT
23b2e60773SJohn Baldwin  * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY
24b2e60773SJohn Baldwin  * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF
25b2e60773SJohn Baldwin  * SUCH DAMAGE.
26b2e60773SJohn Baldwin  */
27b2e60773SJohn Baldwin 
28b2e60773SJohn Baldwin #include <sys/cdefs.h>
29b2e60773SJohn Baldwin __FBSDID("$FreeBSD$");
30b2e60773SJohn Baldwin 
31b2e60773SJohn Baldwin #include "opt_inet.h"
32b2e60773SJohn Baldwin #include "opt_inet6.h"
3328d0a740SAndrew Gallatin #include "opt_kern_tls.h"
34ed5e13cfSAndrew Gallatin #include "opt_ratelimit.h"
35b2e60773SJohn Baldwin #include "opt_rss.h"
36b2e60773SJohn Baldwin 
37b2e60773SJohn Baldwin #include <sys/param.h>
38b2e60773SJohn Baldwin #include <sys/kernel.h>
3902bc3865SAndrew Gallatin #include <sys/domainset.h>
40470e851cSJohn Baldwin #include <sys/endian.h>
41b2e60773SJohn Baldwin #include <sys/ktls.h>
42b2e60773SJohn Baldwin #include <sys/lock.h>
43b2e60773SJohn Baldwin #include <sys/mbuf.h>
44b2e60773SJohn Baldwin #include <sys/mutex.h>
45b2e60773SJohn Baldwin #include <sys/rmlock.h>
46b2e60773SJohn Baldwin #include <sys/proc.h>
47b2e60773SJohn Baldwin #include <sys/protosw.h>
48b2e60773SJohn Baldwin #include <sys/refcount.h>
49b2e60773SJohn Baldwin #include <sys/smp.h>
50b2e60773SJohn Baldwin #include <sys/socket.h>
51b2e60773SJohn Baldwin #include <sys/socketvar.h>
52b2e60773SJohn Baldwin #include <sys/sysctl.h>
53b2e60773SJohn Baldwin #include <sys/taskqueue.h>
54b2e60773SJohn Baldwin #include <sys/kthread.h>
55b2e60773SJohn Baldwin #include <sys/uio.h>
56b2e60773SJohn Baldwin #include <sys/vmmeter.h>
57b2e60773SJohn Baldwin #if defined(__aarch64__) || defined(__amd64__) || defined(__i386__)
58b2e60773SJohn Baldwin #include <machine/pcb.h>
59b2e60773SJohn Baldwin #endif
60b2e60773SJohn Baldwin #include <machine/vmparam.h>
6190746943SGleb Smirnoff #include <net/if.h>
6290746943SGleb Smirnoff #include <net/if_var.h>
63b2e60773SJohn Baldwin #ifdef RSS
64b2e60773SJohn Baldwin #include <net/netisr.h>
65b2e60773SJohn Baldwin #include <net/rss_config.h>
66b2e60773SJohn Baldwin #endif
67454d3896SAlexander V. Chernikov #include <net/route.h>
68454d3896SAlexander V. Chernikov #include <net/route/nhop.h>
69b2e60773SJohn Baldwin #if defined(INET) || defined(INET6)
70b2e60773SJohn Baldwin #include <netinet/in.h>
71b2e60773SJohn Baldwin #include <netinet/in_pcb.h>
72b2e60773SJohn Baldwin #endif
73b2e60773SJohn Baldwin #include <netinet/tcp_var.h>
749e14430dSJohn Baldwin #ifdef TCP_OFFLOAD
759e14430dSJohn Baldwin #include <netinet/tcp_offload.h>
769e14430dSJohn Baldwin #endif
77470e851cSJohn Baldwin #include <opencrypto/cryptodev.h>
78470e851cSJohn Baldwin #include <opencrypto/ktls.h>
79b2e60773SJohn Baldwin #include <vm/uma_dbg.h>
80b2e60773SJohn Baldwin #include <vm/vm.h>
81b2e60773SJohn Baldwin #include <vm/vm_pageout.h>
82b2e60773SJohn Baldwin #include <vm/vm_page.h>
8398215005SAndrew Gallatin #include <vm/vm_pagequeue.h>
84b2e60773SJohn Baldwin 
85b2e60773SJohn Baldwin struct ktls_wq {
86b2e60773SJohn Baldwin 	struct mtx	mtx;
873c0e5685SJohn Baldwin 	STAILQ_HEAD(, mbuf) m_head;
883c0e5685SJohn Baldwin 	STAILQ_HEAD(, socket) so_head;
89b2e60773SJohn Baldwin 	bool		running;
9049f6925cSMark Johnston 	int		lastallocfail;
91b2e60773SJohn Baldwin } __aligned(CACHE_LINE_SIZE);
92b2e60773SJohn Baldwin 
9398215005SAndrew Gallatin struct ktls_alloc_thread {
9498215005SAndrew Gallatin 	uint64_t wakeups;
9598215005SAndrew Gallatin 	uint64_t allocs;
9698215005SAndrew Gallatin 	struct thread *td;
9798215005SAndrew Gallatin 	int running;
9898215005SAndrew Gallatin };
9998215005SAndrew Gallatin 
10002bc3865SAndrew Gallatin struct ktls_domain_info {
10102bc3865SAndrew Gallatin 	int count;
10202bc3865SAndrew Gallatin 	int cpu[MAXCPU];
10398215005SAndrew Gallatin 	struct ktls_alloc_thread alloc_td;
10402bc3865SAndrew Gallatin };
10502bc3865SAndrew Gallatin 
10602bc3865SAndrew Gallatin struct ktls_domain_info ktls_domains[MAXMEMDOM];
107b2e60773SJohn Baldwin static struct ktls_wq *ktls_wq;
108b2e60773SJohn Baldwin static struct proc *ktls_proc;
109b2e60773SJohn Baldwin static uma_zone_t ktls_session_zone;
11049f6925cSMark Johnston static uma_zone_t ktls_buffer_zone;
111b2e60773SJohn Baldwin static uint16_t ktls_cpuid_lookup[MAXCPU];
112a72ee355SJohn Baldwin static int ktls_init_state;
113a72ee355SJohn Baldwin static struct sx ktls_init_lock;
114a72ee355SJohn Baldwin SX_SYSINIT(ktls_init_lock, &ktls_init_lock, "ktls init");
115b2e60773SJohn Baldwin 
1167029da5cSPawel Biernacki SYSCTL_NODE(_kern_ipc, OID_AUTO, tls, CTLFLAG_RW | CTLFLAG_MPSAFE, 0,
117b2e60773SJohn Baldwin     "Kernel TLS offload");
1187029da5cSPawel Biernacki SYSCTL_NODE(_kern_ipc_tls, OID_AUTO, stats, CTLFLAG_RW | CTLFLAG_MPSAFE, 0,
119b2e60773SJohn Baldwin     "Kernel TLS offload stats");
120b2e60773SJohn Baldwin 
121b2e60773SJohn Baldwin #ifdef RSS
122b2e60773SJohn Baldwin static int ktls_bind_threads = 1;
123b2e60773SJohn Baldwin #else
124b2e60773SJohn Baldwin static int ktls_bind_threads;
125b2e60773SJohn Baldwin #endif
126b2e60773SJohn Baldwin SYSCTL_INT(_kern_ipc_tls, OID_AUTO, bind_threads, CTLFLAG_RDTUN,
127b2e60773SJohn Baldwin     &ktls_bind_threads, 0,
1284dc1b17dSMark Johnston     "Bind crypto threads to cores (1) or cores and domains (2) at boot");
129b2e60773SJohn Baldwin 
130b2e60773SJohn Baldwin static u_int ktls_maxlen = 16384;
13149f6925cSMark Johnston SYSCTL_UINT(_kern_ipc_tls, OID_AUTO, maxlen, CTLFLAG_RDTUN,
132b2e60773SJohn Baldwin     &ktls_maxlen, 0, "Maximum TLS record size");
133b2e60773SJohn Baldwin 
134b2e60773SJohn Baldwin static int ktls_number_threads;
135b2e60773SJohn Baldwin SYSCTL_INT(_kern_ipc_tls_stats, OID_AUTO, threads, CTLFLAG_RD,
136b2e60773SJohn Baldwin     &ktls_number_threads, 0,
137b2e60773SJohn Baldwin     "Number of TLS threads in thread-pool");
138b2e60773SJohn Baldwin 
13928d0a740SAndrew Gallatin unsigned int ktls_ifnet_max_rexmit_pct = 2;
14028d0a740SAndrew Gallatin SYSCTL_UINT(_kern_ipc_tls, OID_AUTO, ifnet_max_rexmit_pct, CTLFLAG_RWTUN,
14128d0a740SAndrew Gallatin     &ktls_ifnet_max_rexmit_pct, 2,
14228d0a740SAndrew Gallatin     "Max percent bytes retransmitted before ifnet TLS is disabled");
14328d0a740SAndrew Gallatin 
144b2e60773SJohn Baldwin static bool ktls_offload_enable;
145b5aa9ad4SMark Johnston SYSCTL_BOOL(_kern_ipc_tls, OID_AUTO, enable, CTLFLAG_RWTUN,
146b2e60773SJohn Baldwin     &ktls_offload_enable, 0,
147b2e60773SJohn Baldwin     "Enable support for kernel TLS offload");
148b2e60773SJohn Baldwin 
149b2e60773SJohn Baldwin static bool ktls_cbc_enable = true;
150b5aa9ad4SMark Johnston SYSCTL_BOOL(_kern_ipc_tls, OID_AUTO, cbc_enable, CTLFLAG_RWTUN,
151b2e60773SJohn Baldwin     &ktls_cbc_enable, 1,
152b2e60773SJohn Baldwin     "Enable Support of AES-CBC crypto for kernel TLS");
153b2e60773SJohn Baldwin 
15449f6925cSMark Johnston static bool ktls_sw_buffer_cache = true;
15549f6925cSMark Johnston SYSCTL_BOOL(_kern_ipc_tls, OID_AUTO, sw_buffer_cache, CTLFLAG_RDTUN,
15649f6925cSMark Johnston     &ktls_sw_buffer_cache, 1,
15749f6925cSMark Johnston     "Enable caching of output buffers for SW encryption");
15849f6925cSMark Johnston 
15998215005SAndrew Gallatin static int ktls_max_alloc = 128;
16098215005SAndrew Gallatin SYSCTL_INT(_kern_ipc_tls, OID_AUTO, max_alloc, CTLFLAG_RWTUN,
16198215005SAndrew Gallatin     &ktls_max_alloc, 128,
16298215005SAndrew Gallatin     "Max number of 16k buffers to allocate in thread context");
16398215005SAndrew Gallatin 
1641755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_tasks_active);
165b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls, OID_AUTO, tasks_active, CTLFLAG_RD,
166b2e60773SJohn Baldwin     &ktls_tasks_active, "Number of active tasks");
167b2e60773SJohn Baldwin 
1689f03d2c0SJohn Baldwin static COUNTER_U64_DEFINE_EARLY(ktls_cnt_tx_pending);
1699f03d2c0SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, sw_tx_pending, CTLFLAG_RD,
1709f03d2c0SJohn Baldwin     &ktls_cnt_tx_pending,
1719f03d2c0SJohn Baldwin     "Number of TLS 1.0 records waiting for earlier TLS records");
1729f03d2c0SJohn Baldwin 
1731755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_cnt_tx_queued);
1743c0e5685SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, sw_tx_inqueue, CTLFLAG_RD,
1753c0e5685SJohn Baldwin     &ktls_cnt_tx_queued,
1763c0e5685SJohn Baldwin     "Number of TLS records in queue to tasks for SW encryption");
1773c0e5685SJohn Baldwin 
1781755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_cnt_rx_queued);
1793c0e5685SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, sw_rx_inqueue, CTLFLAG_RD,
1803c0e5685SJohn Baldwin     &ktls_cnt_rx_queued,
1813c0e5685SJohn Baldwin     "Number of TLS sockets in queue to tasks for SW decryption");
182b2e60773SJohn Baldwin 
1831755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_offload_total);
184b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, offload_total,
185b2e60773SJohn Baldwin     CTLFLAG_RD, &ktls_offload_total,
186b2e60773SJohn Baldwin     "Total successful TLS setups (parameters set)");
187b2e60773SJohn Baldwin 
1881755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_offload_enable_calls);
189b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, enable_calls,
190b2e60773SJohn Baldwin     CTLFLAG_RD, &ktls_offload_enable_calls,
191b2e60773SJohn Baldwin     "Total number of TLS enable calls made");
192b2e60773SJohn Baldwin 
1931755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_offload_active);
194b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, active, CTLFLAG_RD,
195b2e60773SJohn Baldwin     &ktls_offload_active, "Total Active TLS sessions");
196b2e60773SJohn Baldwin 
1971755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_offload_corrupted_records);
1983c0e5685SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, corrupted_records, CTLFLAG_RD,
1993c0e5685SJohn Baldwin     &ktls_offload_corrupted_records, "Total corrupted TLS records received");
2003c0e5685SJohn Baldwin 
2011755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_offload_failed_crypto);
202b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, failed_crypto, CTLFLAG_RD,
203b2e60773SJohn Baldwin     &ktls_offload_failed_crypto, "Total TLS crypto failures");
204b2e60773SJohn Baldwin 
2051755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_switch_to_ifnet);
206b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, switch_to_ifnet, CTLFLAG_RD,
207b2e60773SJohn Baldwin     &ktls_switch_to_ifnet, "TLS sessions switched from SW to ifnet");
208b2e60773SJohn Baldwin 
2091755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_switch_to_sw);
210b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, switch_to_sw, CTLFLAG_RD,
211b2e60773SJohn Baldwin     &ktls_switch_to_sw, "TLS sessions switched from ifnet to SW");
212b2e60773SJohn Baldwin 
2131755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_switch_failed);
214b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, switch_failed, CTLFLAG_RD,
215b2e60773SJohn Baldwin     &ktls_switch_failed, "TLS sessions unable to switch between SW and ifnet");
216b2e60773SJohn Baldwin 
21728d0a740SAndrew Gallatin static COUNTER_U64_DEFINE_EARLY(ktls_ifnet_disable_fail);
21828d0a740SAndrew Gallatin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, ifnet_disable_failed, CTLFLAG_RD,
21928d0a740SAndrew Gallatin     &ktls_ifnet_disable_fail, "TLS sessions unable to switch to SW from ifnet");
22028d0a740SAndrew Gallatin 
22128d0a740SAndrew Gallatin static COUNTER_U64_DEFINE_EARLY(ktls_ifnet_disable_ok);
22228d0a740SAndrew Gallatin SYSCTL_COUNTER_U64(_kern_ipc_tls_stats, OID_AUTO, ifnet_disable_ok, CTLFLAG_RD,
22328d0a740SAndrew Gallatin     &ktls_ifnet_disable_ok, "TLS sessions able to switch to SW from ifnet");
22428d0a740SAndrew Gallatin 
2257029da5cSPawel Biernacki SYSCTL_NODE(_kern_ipc_tls, OID_AUTO, sw, CTLFLAG_RD | CTLFLAG_MPSAFE, 0,
226b2e60773SJohn Baldwin     "Software TLS session stats");
2277029da5cSPawel Biernacki SYSCTL_NODE(_kern_ipc_tls, OID_AUTO, ifnet, CTLFLAG_RD | CTLFLAG_MPSAFE, 0,
228b2e60773SJohn Baldwin     "Hardware (ifnet) TLS session stats");
2299e14430dSJohn Baldwin #ifdef TCP_OFFLOAD
2307029da5cSPawel Biernacki SYSCTL_NODE(_kern_ipc_tls, OID_AUTO, toe, CTLFLAG_RD | CTLFLAG_MPSAFE, 0,
2319e14430dSJohn Baldwin     "TOE TLS session stats");
2329e14430dSJohn Baldwin #endif
233b2e60773SJohn Baldwin 
2341755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_sw_cbc);
235b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_sw, OID_AUTO, cbc, CTLFLAG_RD, &ktls_sw_cbc,
236b2e60773SJohn Baldwin     "Active number of software TLS sessions using AES-CBC");
237b2e60773SJohn Baldwin 
2381755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_sw_gcm);
239b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_sw, OID_AUTO, gcm, CTLFLAG_RD, &ktls_sw_gcm,
240b2e60773SJohn Baldwin     "Active number of software TLS sessions using AES-GCM");
241b2e60773SJohn Baldwin 
2429c64fc40SJohn Baldwin static COUNTER_U64_DEFINE_EARLY(ktls_sw_chacha20);
2439c64fc40SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_sw, OID_AUTO, chacha20, CTLFLAG_RD,
2449c64fc40SJohn Baldwin     &ktls_sw_chacha20,
2459c64fc40SJohn Baldwin     "Active number of software TLS sessions using Chacha20-Poly1305");
2469c64fc40SJohn Baldwin 
2471755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_ifnet_cbc);
248b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, cbc, CTLFLAG_RD,
249b2e60773SJohn Baldwin     &ktls_ifnet_cbc,
250b2e60773SJohn Baldwin     "Active number of ifnet TLS sessions using AES-CBC");
251b2e60773SJohn Baldwin 
2521755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_ifnet_gcm);
253b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, gcm, CTLFLAG_RD,
254b2e60773SJohn Baldwin     &ktls_ifnet_gcm,
255b2e60773SJohn Baldwin     "Active number of ifnet TLS sessions using AES-GCM");
256b2e60773SJohn Baldwin 
2579c64fc40SJohn Baldwin static COUNTER_U64_DEFINE_EARLY(ktls_ifnet_chacha20);
2589c64fc40SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, chacha20, CTLFLAG_RD,
2599c64fc40SJohn Baldwin     &ktls_ifnet_chacha20,
2609c64fc40SJohn Baldwin     "Active number of ifnet TLS sessions using Chacha20-Poly1305");
2619c64fc40SJohn Baldwin 
2621755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_ifnet_reset);
263b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, reset, CTLFLAG_RD,
264b2e60773SJohn Baldwin     &ktls_ifnet_reset, "TLS sessions updated to a new ifnet send tag");
265b2e60773SJohn Baldwin 
2661755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_ifnet_reset_dropped);
267b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, reset_dropped, CTLFLAG_RD,
268b2e60773SJohn Baldwin     &ktls_ifnet_reset_dropped,
269b2e60773SJohn Baldwin     "TLS sessions dropped after failing to update ifnet send tag");
270b2e60773SJohn Baldwin 
2711755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_ifnet_reset_failed);
272b2e60773SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_ifnet, OID_AUTO, reset_failed, CTLFLAG_RD,
273b2e60773SJohn Baldwin     &ktls_ifnet_reset_failed,
274b2e60773SJohn Baldwin     "TLS sessions that failed to allocate a new ifnet send tag");
275b2e60773SJohn Baldwin 
276b2e60773SJohn Baldwin static int ktls_ifnet_permitted;
277b2e60773SJohn Baldwin SYSCTL_UINT(_kern_ipc_tls_ifnet, OID_AUTO, permitted, CTLFLAG_RWTUN,
278b2e60773SJohn Baldwin     &ktls_ifnet_permitted, 1,
279b2e60773SJohn Baldwin     "Whether to permit hardware (ifnet) TLS sessions");
280b2e60773SJohn Baldwin 
2819e14430dSJohn Baldwin #ifdef TCP_OFFLOAD
2821755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_toe_cbc);
2839e14430dSJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_toe, OID_AUTO, cbc, CTLFLAG_RD,
2849e14430dSJohn Baldwin     &ktls_toe_cbc,
2859e14430dSJohn Baldwin     "Active number of TOE TLS sessions using AES-CBC");
2869e14430dSJohn Baldwin 
2871755b2b9SMark Johnston static COUNTER_U64_DEFINE_EARLY(ktls_toe_gcm);
2889e14430dSJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_toe, OID_AUTO, gcm, CTLFLAG_RD,
2899e14430dSJohn Baldwin     &ktls_toe_gcm,
2909e14430dSJohn Baldwin     "Active number of TOE TLS sessions using AES-GCM");
2919c64fc40SJohn Baldwin 
29290972f04SJohn Baldwin static COUNTER_U64_DEFINE_EARLY(ktls_toe_chacha20);
2939c64fc40SJohn Baldwin SYSCTL_COUNTER_U64(_kern_ipc_tls_toe, OID_AUTO, chacha20, CTLFLAG_RD,
2949c64fc40SJohn Baldwin     &ktls_toe_chacha20,
2959c64fc40SJohn Baldwin     "Active number of TOE TLS sessions using Chacha20-Poly1305");
2969e14430dSJohn Baldwin #endif
2979e14430dSJohn Baldwin 
298b2e60773SJohn Baldwin static MALLOC_DEFINE(M_KTLS, "ktls", "Kernel TLS");
299b2e60773SJohn Baldwin 
300b2e60773SJohn Baldwin static void ktls_cleanup(struct ktls_session *tls);
301b2e60773SJohn Baldwin #if defined(INET) || defined(INET6)
302b2e60773SJohn Baldwin static void ktls_reset_send_tag(void *context, int pending);
303b2e60773SJohn Baldwin #endif
304b2e60773SJohn Baldwin static void ktls_work_thread(void *ctx);
30598215005SAndrew Gallatin static void ktls_alloc_thread(void *ctx);
306b2e60773SJohn Baldwin 
307b2e60773SJohn Baldwin #if defined(INET) || defined(INET6)
308a2fba2a7SBjoern A. Zeeb static u_int
309b2e60773SJohn Baldwin ktls_get_cpu(struct socket *so)
310b2e60773SJohn Baldwin {
311b2e60773SJohn Baldwin 	struct inpcb *inp;
31202bc3865SAndrew Gallatin #ifdef NUMA
31302bc3865SAndrew Gallatin 	struct ktls_domain_info *di;
31402bc3865SAndrew Gallatin #endif
315a2fba2a7SBjoern A. Zeeb 	u_int cpuid;
316b2e60773SJohn Baldwin 
317b2e60773SJohn Baldwin 	inp = sotoinpcb(so);
318b2e60773SJohn Baldwin #ifdef RSS
319b2e60773SJohn Baldwin 	cpuid = rss_hash2cpuid(inp->inp_flowid, inp->inp_flowtype);
320b2e60773SJohn Baldwin 	if (cpuid != NETISR_CPUID_NONE)
321b2e60773SJohn Baldwin 		return (cpuid);
322b2e60773SJohn Baldwin #endif
323b2e60773SJohn Baldwin 	/*
324b2e60773SJohn Baldwin 	 * Just use the flowid to shard connections in a repeatable
32521e3c1fbSJohn Baldwin 	 * fashion.  Note that TLS 1.0 sessions rely on the
326b2e60773SJohn Baldwin 	 * serialization provided by having the same connection use
327b2e60773SJohn Baldwin 	 * the same queue.
328b2e60773SJohn Baldwin 	 */
32902bc3865SAndrew Gallatin #ifdef NUMA
33002bc3865SAndrew Gallatin 	if (ktls_bind_threads > 1 && inp->inp_numa_domain != M_NODOM) {
33102bc3865SAndrew Gallatin 		di = &ktls_domains[inp->inp_numa_domain];
33202bc3865SAndrew Gallatin 		cpuid = di->cpu[inp->inp_flowid % di->count];
33302bc3865SAndrew Gallatin 	} else
33402bc3865SAndrew Gallatin #endif
335b2e60773SJohn Baldwin 		cpuid = ktls_cpuid_lookup[inp->inp_flowid % ktls_number_threads];
336b2e60773SJohn Baldwin 	return (cpuid);
337b2e60773SJohn Baldwin }
338b2e60773SJohn Baldwin #endif
339b2e60773SJohn Baldwin 
34049f6925cSMark Johnston static int
34149f6925cSMark Johnston ktls_buffer_import(void *arg, void **store, int count, int domain, int flags)
34249f6925cSMark Johnston {
34349f6925cSMark Johnston 	vm_page_t m;
34484c39222SMark Johnston 	int i, req;
34549f6925cSMark Johnston 
34649f6925cSMark Johnston 	KASSERT((ktls_maxlen & PAGE_MASK) == 0,
34749f6925cSMark Johnston 	    ("%s: ktls max length %d is not page size-aligned",
34849f6925cSMark Johnston 	    __func__, ktls_maxlen));
34949f6925cSMark Johnston 
35084c39222SMark Johnston 	req = VM_ALLOC_WIRED | VM_ALLOC_NODUMP | malloc2vm_flags(flags);
35149f6925cSMark Johnston 	for (i = 0; i < count; i++) {
35284c39222SMark Johnston 		m = vm_page_alloc_noobj_contig_domain(domain, req,
35349f6925cSMark Johnston 		    atop(ktls_maxlen), 0, ~0ul, PAGE_SIZE, 0,
35449f6925cSMark Johnston 		    VM_MEMATTR_DEFAULT);
35549f6925cSMark Johnston 		if (m == NULL)
35649f6925cSMark Johnston 			break;
35749f6925cSMark Johnston 		store[i] = (void *)PHYS_TO_DMAP(VM_PAGE_TO_PHYS(m));
35849f6925cSMark Johnston 	}
35949f6925cSMark Johnston 	return (i);
36049f6925cSMark Johnston }
36149f6925cSMark Johnston 
36249f6925cSMark Johnston static void
36349f6925cSMark Johnston ktls_buffer_release(void *arg __unused, void **store, int count)
36449f6925cSMark Johnston {
36549f6925cSMark Johnston 	vm_page_t m;
36649f6925cSMark Johnston 	int i, j;
36749f6925cSMark Johnston 
36849f6925cSMark Johnston 	for (i = 0; i < count; i++) {
36949f6925cSMark Johnston 		m = PHYS_TO_VM_PAGE(DMAP_TO_PHYS((vm_offset_t)store[i]));
37049f6925cSMark Johnston 		for (j = 0; j < atop(ktls_maxlen); j++) {
37149f6925cSMark Johnston 			(void)vm_page_unwire_noq(m + j);
37249f6925cSMark Johnston 			vm_page_free(m + j);
37349f6925cSMark Johnston 		}
37449f6925cSMark Johnston 	}
37549f6925cSMark Johnston }
37649f6925cSMark Johnston 
37749f6925cSMark Johnston static void
37849f6925cSMark Johnston ktls_free_mext_contig(struct mbuf *m)
37949f6925cSMark Johnston {
38049f6925cSMark Johnston 	M_ASSERTEXTPG(m);
38149f6925cSMark Johnston 	uma_zfree(ktls_buffer_zone, (void *)PHYS_TO_DMAP(m->m_epg_pa[0]));
38249f6925cSMark Johnston }
38349f6925cSMark Johnston 
384a72ee355SJohn Baldwin static int
385a72ee355SJohn Baldwin ktls_init(void)
386b2e60773SJohn Baldwin {
387b2e60773SJohn Baldwin 	struct thread *td;
388b2e60773SJohn Baldwin 	struct pcpu *pc;
38902bc3865SAndrew Gallatin 	int count, domain, error, i;
390b2e60773SJohn Baldwin 
391b2e60773SJohn Baldwin 	ktls_wq = malloc(sizeof(*ktls_wq) * (mp_maxid + 1), M_KTLS,
392b2e60773SJohn Baldwin 	    M_WAITOK | M_ZERO);
393b2e60773SJohn Baldwin 
394b2e60773SJohn Baldwin 	ktls_session_zone = uma_zcreate("ktls_session",
395b2e60773SJohn Baldwin 	    sizeof(struct ktls_session),
396b2e60773SJohn Baldwin 	    NULL, NULL, NULL, NULL,
397b2e60773SJohn Baldwin 	    UMA_ALIGN_CACHE, 0);
398b2e60773SJohn Baldwin 
39949f6925cSMark Johnston 	if (ktls_sw_buffer_cache) {
40049f6925cSMark Johnston 		ktls_buffer_zone = uma_zcache_create("ktls_buffers",
40149f6925cSMark Johnston 		    roundup2(ktls_maxlen, PAGE_SIZE), NULL, NULL, NULL, NULL,
40249f6925cSMark Johnston 		    ktls_buffer_import, ktls_buffer_release, NULL,
40349f6925cSMark Johnston 		    UMA_ZONE_FIRSTTOUCH);
40449f6925cSMark Johnston 	}
40549f6925cSMark Johnston 
406b2e60773SJohn Baldwin 	/*
407b2e60773SJohn Baldwin 	 * Initialize the workqueues to run the TLS work.  We create a
408b2e60773SJohn Baldwin 	 * work queue for each CPU.
409b2e60773SJohn Baldwin 	 */
410b2e60773SJohn Baldwin 	CPU_FOREACH(i) {
4113c0e5685SJohn Baldwin 		STAILQ_INIT(&ktls_wq[i].m_head);
4123c0e5685SJohn Baldwin 		STAILQ_INIT(&ktls_wq[i].so_head);
413b2e60773SJohn Baldwin 		mtx_init(&ktls_wq[i].mtx, "ktls work queue", NULL, MTX_DEF);
414b2e60773SJohn Baldwin 		if (ktls_bind_threads > 1) {
415b2e60773SJohn Baldwin 			pc = pcpu_find(i);
41602bc3865SAndrew Gallatin 			domain = pc->pc_domain;
41702bc3865SAndrew Gallatin 			count = ktls_domains[domain].count;
41802bc3865SAndrew Gallatin 			ktls_domains[domain].cpu[count] = i;
41902bc3865SAndrew Gallatin 			ktls_domains[domain].count++;
420b2e60773SJohn Baldwin 		}
421b2e60773SJohn Baldwin 		ktls_cpuid_lookup[ktls_number_threads] = i;
422b2e60773SJohn Baldwin 		ktls_number_threads++;
423b2e60773SJohn Baldwin 	}
42402bc3865SAndrew Gallatin 
42502bc3865SAndrew Gallatin 	/*
426a72ee355SJohn Baldwin 	 * If we somehow have an empty domain, fall back to choosing
427a72ee355SJohn Baldwin 	 * among all KTLS threads.
428a72ee355SJohn Baldwin 	 */
429a72ee355SJohn Baldwin 	if (ktls_bind_threads > 1) {
430a72ee355SJohn Baldwin 		for (i = 0; i < vm_ndomains; i++) {
431a72ee355SJohn Baldwin 			if (ktls_domains[i].count == 0) {
432a72ee355SJohn Baldwin 				ktls_bind_threads = 1;
433a72ee355SJohn Baldwin 				break;
434a72ee355SJohn Baldwin 			}
435a72ee355SJohn Baldwin 		}
436a72ee355SJohn Baldwin 	}
437a72ee355SJohn Baldwin 
438a72ee355SJohn Baldwin 	/* Start kthreads for each workqueue. */
439a72ee355SJohn Baldwin 	CPU_FOREACH(i) {
440a72ee355SJohn Baldwin 		error = kproc_kthread_add(ktls_work_thread, &ktls_wq[i],
441a72ee355SJohn Baldwin 		    &ktls_proc, &td, 0, 0, "KTLS", "thr_%d", i);
442a72ee355SJohn Baldwin 		if (error) {
443a72ee355SJohn Baldwin 			printf("Can't add KTLS thread %d error %d\n", i, error);
444a72ee355SJohn Baldwin 			return (error);
445a72ee355SJohn Baldwin 		}
446a72ee355SJohn Baldwin 	}
447a72ee355SJohn Baldwin 
448a72ee355SJohn Baldwin 	/*
44998215005SAndrew Gallatin 	 * Start an allocation thread per-domain to perform blocking allocations
45098215005SAndrew Gallatin 	 * of 16k physically contiguous TLS crypto destination buffers.
45198215005SAndrew Gallatin 	 */
45298215005SAndrew Gallatin 	if (ktls_sw_buffer_cache) {
45398215005SAndrew Gallatin 		for (domain = 0; domain < vm_ndomains; domain++) {
45498215005SAndrew Gallatin 			if (VM_DOMAIN_EMPTY(domain))
45598215005SAndrew Gallatin 				continue;
45698215005SAndrew Gallatin 			if (CPU_EMPTY(&cpuset_domain[domain]))
45798215005SAndrew Gallatin 				continue;
45898215005SAndrew Gallatin 			error = kproc_kthread_add(ktls_alloc_thread,
45998215005SAndrew Gallatin 			    &ktls_domains[domain], &ktls_proc,
46098215005SAndrew Gallatin 			    &ktls_domains[domain].alloc_td.td,
46198215005SAndrew Gallatin 			    0, 0, "KTLS", "alloc_%d", domain);
462a72ee355SJohn Baldwin 			if (error) {
463a72ee355SJohn Baldwin 				printf("Can't add KTLS alloc thread %d error %d\n",
46498215005SAndrew Gallatin 				    domain, error);
465a72ee355SJohn Baldwin 				return (error);
46602bc3865SAndrew Gallatin 			}
46702bc3865SAndrew Gallatin 		}
4684dc1b17dSMark Johnston 	}
46902bc3865SAndrew Gallatin 
47089b65087SMark Johnston 	if (bootverbose)
471b2e60773SJohn Baldwin 		printf("KTLS: Initialized %d threads\n", ktls_number_threads);
472a72ee355SJohn Baldwin 	return (0);
473b2e60773SJohn Baldwin }
474a72ee355SJohn Baldwin 
475a72ee355SJohn Baldwin static int
476a72ee355SJohn Baldwin ktls_start_kthreads(void)
477a72ee355SJohn Baldwin {
478a72ee355SJohn Baldwin 	int error, state;
479a72ee355SJohn Baldwin 
480a72ee355SJohn Baldwin start:
481a72ee355SJohn Baldwin 	state = atomic_load_acq_int(&ktls_init_state);
482a72ee355SJohn Baldwin 	if (__predict_true(state > 0))
483a72ee355SJohn Baldwin 		return (0);
484a72ee355SJohn Baldwin 	if (state < 0)
485a72ee355SJohn Baldwin 		return (ENXIO);
486a72ee355SJohn Baldwin 
487a72ee355SJohn Baldwin 	sx_xlock(&ktls_init_lock);
488a72ee355SJohn Baldwin 	if (ktls_init_state != 0) {
489a72ee355SJohn Baldwin 		sx_xunlock(&ktls_init_lock);
490a72ee355SJohn Baldwin 		goto start;
491a72ee355SJohn Baldwin 	}
492a72ee355SJohn Baldwin 
493a72ee355SJohn Baldwin 	error = ktls_init();
494a72ee355SJohn Baldwin 	if (error == 0)
495a72ee355SJohn Baldwin 		state = 1;
496a72ee355SJohn Baldwin 	else
497a72ee355SJohn Baldwin 		state = -1;
498a72ee355SJohn Baldwin 	atomic_store_rel_int(&ktls_init_state, state);
499a72ee355SJohn Baldwin 	sx_xunlock(&ktls_init_lock);
500a72ee355SJohn Baldwin 	return (error);
501a72ee355SJohn Baldwin }
502b2e60773SJohn Baldwin 
503b2e60773SJohn Baldwin #if defined(INET) || defined(INET6)
504b2e60773SJohn Baldwin static int
505b2e60773SJohn Baldwin ktls_create_session(struct socket *so, struct tls_enable *en,
506b2e60773SJohn Baldwin     struct ktls_session **tlsp)
507b2e60773SJohn Baldwin {
508b2e60773SJohn Baldwin 	struct ktls_session *tls;
509b2e60773SJohn Baldwin 	int error;
510b2e60773SJohn Baldwin 
5117d29eb9aSJohn Baldwin 	/* Only TLS 1.0 - 1.3 are supported. */
512b2e60773SJohn Baldwin 	if (en->tls_vmajor != TLS_MAJOR_VER_ONE)
513b2e60773SJohn Baldwin 		return (EINVAL);
514b2e60773SJohn Baldwin 	if (en->tls_vminor < TLS_MINOR_VER_ZERO ||
5156554362cSAndrew Gallatin 	    en->tls_vminor > TLS_MINOR_VER_THREE)
516b2e60773SJohn Baldwin 		return (EINVAL);
517b2e60773SJohn Baldwin 
518b2e60773SJohn Baldwin 	if (en->auth_key_len < 0 || en->auth_key_len > TLS_MAX_PARAM_SIZE)
519b2e60773SJohn Baldwin 		return (EINVAL);
520b2e60773SJohn Baldwin 	if (en->cipher_key_len < 0 || en->cipher_key_len > TLS_MAX_PARAM_SIZE)
521b2e60773SJohn Baldwin 		return (EINVAL);
5226554362cSAndrew Gallatin 	if (en->iv_len < 0 || en->iv_len > sizeof(tls->params.iv))
523b2e60773SJohn Baldwin 		return (EINVAL);
524b2e60773SJohn Baldwin 
525b2e60773SJohn Baldwin 	/* All supported algorithms require a cipher key. */
526b2e60773SJohn Baldwin 	if (en->cipher_key_len == 0)
527b2e60773SJohn Baldwin 		return (EINVAL);
528b2e60773SJohn Baldwin 
529b2e60773SJohn Baldwin 	/* No flags are currently supported. */
530b2e60773SJohn Baldwin 	if (en->flags != 0)
531b2e60773SJohn Baldwin 		return (EINVAL);
532b2e60773SJohn Baldwin 
533b2e60773SJohn Baldwin 	/* Common checks for supported algorithms. */
534b2e60773SJohn Baldwin 	switch (en->cipher_algorithm) {
535b2e60773SJohn Baldwin 	case CRYPTO_AES_NIST_GCM_16:
536b2e60773SJohn Baldwin 		/*
537b2e60773SJohn Baldwin 		 * auth_algorithm isn't used, but permit GMAC values
538b2e60773SJohn Baldwin 		 * for compatibility.
539b2e60773SJohn Baldwin 		 */
540b2e60773SJohn Baldwin 		switch (en->auth_algorithm) {
541b2e60773SJohn Baldwin 		case 0:
542c0341432SJohn Baldwin #ifdef COMPAT_FREEBSD12
543c0341432SJohn Baldwin 		/* XXX: Really 13.0-current COMPAT. */
544b2e60773SJohn Baldwin 		case CRYPTO_AES_128_NIST_GMAC:
545b2e60773SJohn Baldwin 		case CRYPTO_AES_192_NIST_GMAC:
546b2e60773SJohn Baldwin 		case CRYPTO_AES_256_NIST_GMAC:
547c0341432SJohn Baldwin #endif
548b2e60773SJohn Baldwin 			break;
549b2e60773SJohn Baldwin 		default:
550b2e60773SJohn Baldwin 			return (EINVAL);
551b2e60773SJohn Baldwin 		}
552b2e60773SJohn Baldwin 		if (en->auth_key_len != 0)
553b2e60773SJohn Baldwin 			return (EINVAL);
554900a28feSJohn Baldwin 		switch (en->tls_vminor) {
555900a28feSJohn Baldwin 		case TLS_MINOR_VER_TWO:
556900a28feSJohn Baldwin 			if (en->iv_len != TLS_AEAD_GCM_LEN)
557b2e60773SJohn Baldwin 				return (EINVAL);
558b2e60773SJohn Baldwin 			break;
559900a28feSJohn Baldwin 		case TLS_MINOR_VER_THREE:
560900a28feSJohn Baldwin 			if (en->iv_len != TLS_1_3_GCM_IV_LEN)
561900a28feSJohn Baldwin 				return (EINVAL);
562900a28feSJohn Baldwin 			break;
563900a28feSJohn Baldwin 		default:
564900a28feSJohn Baldwin 			return (EINVAL);
565900a28feSJohn Baldwin 		}
566900a28feSJohn Baldwin 		break;
567b2e60773SJohn Baldwin 	case CRYPTO_AES_CBC:
568b2e60773SJohn Baldwin 		switch (en->auth_algorithm) {
569b2e60773SJohn Baldwin 		case CRYPTO_SHA1_HMAC:
570b2e60773SJohn Baldwin 			break;
571b2e60773SJohn Baldwin 		case CRYPTO_SHA2_256_HMAC:
572b2e60773SJohn Baldwin 		case CRYPTO_SHA2_384_HMAC:
573900a28feSJohn Baldwin 			if (en->tls_vminor != TLS_MINOR_VER_TWO)
574900a28feSJohn Baldwin 				return (EINVAL);
575b2e60773SJohn Baldwin 			break;
576b2e60773SJohn Baldwin 		default:
577b2e60773SJohn Baldwin 			return (EINVAL);
578b2e60773SJohn Baldwin 		}
579b2e60773SJohn Baldwin 		if (en->auth_key_len == 0)
580b2e60773SJohn Baldwin 			return (EINVAL);
581900a28feSJohn Baldwin 
582900a28feSJohn Baldwin 		/*
583900a28feSJohn Baldwin 		 * TLS 1.0 requires an implicit IV.  TLS 1.1 and 1.2
584900a28feSJohn Baldwin 		 * use explicit IVs.
585900a28feSJohn Baldwin 		 */
586900a28feSJohn Baldwin 		switch (en->tls_vminor) {
587900a28feSJohn Baldwin 		case TLS_MINOR_VER_ZERO:
588900a28feSJohn Baldwin 			if (en->iv_len != TLS_CBC_IMPLICIT_IV_LEN)
589a63752ccSJohn Baldwin 				return (EINVAL);
590b2e60773SJohn Baldwin 			break;
591900a28feSJohn Baldwin 		case TLS_MINOR_VER_ONE:
592900a28feSJohn Baldwin 		case TLS_MINOR_VER_TWO:
593900a28feSJohn Baldwin 			/* Ignore any supplied IV. */
594900a28feSJohn Baldwin 			en->iv_len = 0;
595900a28feSJohn Baldwin 			break;
596900a28feSJohn Baldwin 		default:
597900a28feSJohn Baldwin 			return (EINVAL);
598900a28feSJohn Baldwin 		}
599900a28feSJohn Baldwin 		break;
6009c64fc40SJohn Baldwin 	case CRYPTO_CHACHA20_POLY1305:
6019c64fc40SJohn Baldwin 		if (en->auth_algorithm != 0 || en->auth_key_len != 0)
6029c64fc40SJohn Baldwin 			return (EINVAL);
6039c64fc40SJohn Baldwin 		if (en->tls_vminor != TLS_MINOR_VER_TWO &&
6049c64fc40SJohn Baldwin 		    en->tls_vminor != TLS_MINOR_VER_THREE)
6059c64fc40SJohn Baldwin 			return (EINVAL);
6069c64fc40SJohn Baldwin 		if (en->iv_len != TLS_CHACHA20_IV_LEN)
6079c64fc40SJohn Baldwin 			return (EINVAL);
6089c64fc40SJohn Baldwin 		break;
609b2e60773SJohn Baldwin 	default:
610b2e60773SJohn Baldwin 		return (EINVAL);
611b2e60773SJohn Baldwin 	}
612b2e60773SJohn Baldwin 
613a72ee355SJohn Baldwin 	error = ktls_start_kthreads();
614a72ee355SJohn Baldwin 	if (error != 0)
615a72ee355SJohn Baldwin 		return (error);
616a72ee355SJohn Baldwin 
617b2e60773SJohn Baldwin 	tls = uma_zalloc(ktls_session_zone, M_WAITOK | M_ZERO);
618b2e60773SJohn Baldwin 
619b2e60773SJohn Baldwin 	counter_u64_add(ktls_offload_active, 1);
620b2e60773SJohn Baldwin 
621b2e60773SJohn Baldwin 	refcount_init(&tls->refcount, 1);
622b2e60773SJohn Baldwin 	TASK_INIT(&tls->reset_tag_task, 0, ktls_reset_send_tag, tls);
623b2e60773SJohn Baldwin 
624b2e60773SJohn Baldwin 	tls->wq_index = ktls_get_cpu(so);
625b2e60773SJohn Baldwin 
626b2e60773SJohn Baldwin 	tls->params.cipher_algorithm = en->cipher_algorithm;
627b2e60773SJohn Baldwin 	tls->params.auth_algorithm = en->auth_algorithm;
628b2e60773SJohn Baldwin 	tls->params.tls_vmajor = en->tls_vmajor;
629b2e60773SJohn Baldwin 	tls->params.tls_vminor = en->tls_vminor;
630b2e60773SJohn Baldwin 	tls->params.flags = en->flags;
631b2e60773SJohn Baldwin 	tls->params.max_frame_len = min(TLS_MAX_MSG_SIZE_V10_2, ktls_maxlen);
632b2e60773SJohn Baldwin 
633b2e60773SJohn Baldwin 	/* Set the header and trailer lengths. */
634b2e60773SJohn Baldwin 	tls->params.tls_hlen = sizeof(struct tls_record_layer);
635b2e60773SJohn Baldwin 	switch (en->cipher_algorithm) {
636b2e60773SJohn Baldwin 	case CRYPTO_AES_NIST_GCM_16:
6376554362cSAndrew Gallatin 		/*
6386554362cSAndrew Gallatin 		 * TLS 1.2 uses a 4 byte implicit IV with an explicit 8 byte
6396554362cSAndrew Gallatin 		 * nonce.  TLS 1.3 uses a 12 byte implicit IV.
6406554362cSAndrew Gallatin 		 */
6416554362cSAndrew Gallatin 		if (en->tls_vminor < TLS_MINOR_VER_THREE)
6426554362cSAndrew Gallatin 			tls->params.tls_hlen += sizeof(uint64_t);
643b2e60773SJohn Baldwin 		tls->params.tls_tlen = AES_GMAC_HASH_LEN;
644b2e60773SJohn Baldwin 		tls->params.tls_bs = 1;
645b2e60773SJohn Baldwin 		break;
646b2e60773SJohn Baldwin 	case CRYPTO_AES_CBC:
647b2e60773SJohn Baldwin 		switch (en->auth_algorithm) {
648b2e60773SJohn Baldwin 		case CRYPTO_SHA1_HMAC:
649b2e60773SJohn Baldwin 			if (en->tls_vminor == TLS_MINOR_VER_ZERO) {
650b2e60773SJohn Baldwin 				/* Implicit IV, no nonce. */
6519f03d2c0SJohn Baldwin 				tls->sequential_records = true;
6529f03d2c0SJohn Baldwin 				tls->next_seqno = be64dec(en->rec_seq);
6539f03d2c0SJohn Baldwin 				STAILQ_INIT(&tls->pending_records);
654b2e60773SJohn Baldwin 			} else {
655b2e60773SJohn Baldwin 				tls->params.tls_hlen += AES_BLOCK_LEN;
656b2e60773SJohn Baldwin 			}
657b2e60773SJohn Baldwin 			tls->params.tls_tlen = AES_BLOCK_LEN +
658b2e60773SJohn Baldwin 			    SHA1_HASH_LEN;
659b2e60773SJohn Baldwin 			break;
660b2e60773SJohn Baldwin 		case CRYPTO_SHA2_256_HMAC:
661b2e60773SJohn Baldwin 			tls->params.tls_hlen += AES_BLOCK_LEN;
662b2e60773SJohn Baldwin 			tls->params.tls_tlen = AES_BLOCK_LEN +
663b2e60773SJohn Baldwin 			    SHA2_256_HASH_LEN;
664b2e60773SJohn Baldwin 			break;
665b2e60773SJohn Baldwin 		case CRYPTO_SHA2_384_HMAC:
666b2e60773SJohn Baldwin 			tls->params.tls_hlen += AES_BLOCK_LEN;
667b2e60773SJohn Baldwin 			tls->params.tls_tlen = AES_BLOCK_LEN +
668b2e60773SJohn Baldwin 			    SHA2_384_HASH_LEN;
669b2e60773SJohn Baldwin 			break;
670b2e60773SJohn Baldwin 		default:
671b2e60773SJohn Baldwin 			panic("invalid hmac");
672b2e60773SJohn Baldwin 		}
673b2e60773SJohn Baldwin 		tls->params.tls_bs = AES_BLOCK_LEN;
674b2e60773SJohn Baldwin 		break;
6759c64fc40SJohn Baldwin 	case CRYPTO_CHACHA20_POLY1305:
6769c64fc40SJohn Baldwin 		/*
6779c64fc40SJohn Baldwin 		 * Chacha20 uses a 12 byte implicit IV.
6789c64fc40SJohn Baldwin 		 */
6799c64fc40SJohn Baldwin 		tls->params.tls_tlen = POLY1305_HASH_LEN;
6809c64fc40SJohn Baldwin 		tls->params.tls_bs = 1;
6819c64fc40SJohn Baldwin 		break;
682b2e60773SJohn Baldwin 	default:
683b2e60773SJohn Baldwin 		panic("invalid cipher");
684b2e60773SJohn Baldwin 	}
685b2e60773SJohn Baldwin 
6869c64fc40SJohn Baldwin 	/*
6879c64fc40SJohn Baldwin 	 * TLS 1.3 includes optional padding which we do not support,
6889c64fc40SJohn Baldwin 	 * and also puts the "real" record type at the end of the
6899c64fc40SJohn Baldwin 	 * encrypted data.
6909c64fc40SJohn Baldwin 	 */
6919c64fc40SJohn Baldwin 	if (en->tls_vminor == TLS_MINOR_VER_THREE)
6929c64fc40SJohn Baldwin 		tls->params.tls_tlen += sizeof(uint8_t);
6939c64fc40SJohn Baldwin 
694b2e60773SJohn Baldwin 	KASSERT(tls->params.tls_hlen <= MBUF_PEXT_HDR_LEN,
695b2e60773SJohn Baldwin 	    ("TLS header length too long: %d", tls->params.tls_hlen));
696b2e60773SJohn Baldwin 	KASSERT(tls->params.tls_tlen <= MBUF_PEXT_TRAIL_LEN,
697b2e60773SJohn Baldwin 	    ("TLS trailer length too long: %d", tls->params.tls_tlen));
698b2e60773SJohn Baldwin 
699b2e60773SJohn Baldwin 	if (en->auth_key_len != 0) {
700b2e60773SJohn Baldwin 		tls->params.auth_key_len = en->auth_key_len;
701b2e60773SJohn Baldwin 		tls->params.auth_key = malloc(en->auth_key_len, M_KTLS,
702b2e60773SJohn Baldwin 		    M_WAITOK);
703b2e60773SJohn Baldwin 		error = copyin(en->auth_key, tls->params.auth_key,
704b2e60773SJohn Baldwin 		    en->auth_key_len);
705b2e60773SJohn Baldwin 		if (error)
706b2e60773SJohn Baldwin 			goto out;
707b2e60773SJohn Baldwin 	}
708b2e60773SJohn Baldwin 
709b2e60773SJohn Baldwin 	tls->params.cipher_key_len = en->cipher_key_len;
710b2e60773SJohn Baldwin 	tls->params.cipher_key = malloc(en->cipher_key_len, M_KTLS, M_WAITOK);
711b2e60773SJohn Baldwin 	error = copyin(en->cipher_key, tls->params.cipher_key,
712b2e60773SJohn Baldwin 	    en->cipher_key_len);
713b2e60773SJohn Baldwin 	if (error)
714b2e60773SJohn Baldwin 		goto out;
715b2e60773SJohn Baldwin 
716b2e60773SJohn Baldwin 	/*
7179c64fc40SJohn Baldwin 	 * This holds the implicit portion of the nonce for AEAD
7189c64fc40SJohn Baldwin 	 * ciphers and the initial implicit IV for TLS 1.0.  The
7199c64fc40SJohn Baldwin 	 * explicit portions of the IV are generated in ktls_frame().
720b2e60773SJohn Baldwin 	 */
721b2e60773SJohn Baldwin 	if (en->iv_len != 0) {
722b2e60773SJohn Baldwin 		tls->params.iv_len = en->iv_len;
723b2e60773SJohn Baldwin 		error = copyin(en->iv, tls->params.iv, en->iv_len);
724b2e60773SJohn Baldwin 		if (error)
725b2e60773SJohn Baldwin 			goto out;
7267d29eb9aSJohn Baldwin 
7277d29eb9aSJohn Baldwin 		/*
7289c64fc40SJohn Baldwin 		 * For TLS 1.2 with GCM, generate an 8-byte nonce as a
7299c64fc40SJohn Baldwin 		 * counter to generate unique explicit IVs.
7307d29eb9aSJohn Baldwin 		 *
7317d29eb9aSJohn Baldwin 		 * Store this counter in the last 8 bytes of the IV
7327d29eb9aSJohn Baldwin 		 * array so that it is 8-byte aligned.
7337d29eb9aSJohn Baldwin 		 */
7347d29eb9aSJohn Baldwin 		if (en->cipher_algorithm == CRYPTO_AES_NIST_GCM_16 &&
7357d29eb9aSJohn Baldwin 		    en->tls_vminor == TLS_MINOR_VER_TWO)
7367d29eb9aSJohn Baldwin 			arc4rand(tls->params.iv + 8, sizeof(uint64_t), 0);
737b2e60773SJohn Baldwin 	}
738b2e60773SJohn Baldwin 
739b2e60773SJohn Baldwin 	*tlsp = tls;
740b2e60773SJohn Baldwin 	return (0);
741b2e60773SJohn Baldwin 
742b2e60773SJohn Baldwin out:
743b2e60773SJohn Baldwin 	ktls_cleanup(tls);
744b2e60773SJohn Baldwin 	return (error);
745b2e60773SJohn Baldwin }
746b2e60773SJohn Baldwin 
747b2e60773SJohn Baldwin static struct ktls_session *
748b2e60773SJohn Baldwin ktls_clone_session(struct ktls_session *tls)
749b2e60773SJohn Baldwin {
750b2e60773SJohn Baldwin 	struct ktls_session *tls_new;
751b2e60773SJohn Baldwin 
752b2e60773SJohn Baldwin 	tls_new = uma_zalloc(ktls_session_zone, M_WAITOK | M_ZERO);
753b2e60773SJohn Baldwin 
754b2e60773SJohn Baldwin 	counter_u64_add(ktls_offload_active, 1);
755b2e60773SJohn Baldwin 
756b2e60773SJohn Baldwin 	refcount_init(&tls_new->refcount, 1);
75795c51fafSAndrew Gallatin 	TASK_INIT(&tls_new->reset_tag_task, 0, ktls_reset_send_tag, tls_new);
758b2e60773SJohn Baldwin 
759b2e60773SJohn Baldwin 	/* Copy fields from existing session. */
760b2e60773SJohn Baldwin 	tls_new->params = tls->params;
761b2e60773SJohn Baldwin 	tls_new->wq_index = tls->wq_index;
762b2e60773SJohn Baldwin 
763b2e60773SJohn Baldwin 	/* Deep copy keys. */
764b2e60773SJohn Baldwin 	if (tls_new->params.auth_key != NULL) {
765b2e60773SJohn Baldwin 		tls_new->params.auth_key = malloc(tls->params.auth_key_len,
766b2e60773SJohn Baldwin 		    M_KTLS, M_WAITOK);
767b2e60773SJohn Baldwin 		memcpy(tls_new->params.auth_key, tls->params.auth_key,
768b2e60773SJohn Baldwin 		    tls->params.auth_key_len);
769b2e60773SJohn Baldwin 	}
770b2e60773SJohn Baldwin 
771b2e60773SJohn Baldwin 	tls_new->params.cipher_key = malloc(tls->params.cipher_key_len, M_KTLS,
772b2e60773SJohn Baldwin 	    M_WAITOK);
773b2e60773SJohn Baldwin 	memcpy(tls_new->params.cipher_key, tls->params.cipher_key,
774b2e60773SJohn Baldwin 	    tls->params.cipher_key_len);
775b2e60773SJohn Baldwin 
776b2e60773SJohn Baldwin 	return (tls_new);
777b2e60773SJohn Baldwin }
778b2e60773SJohn Baldwin #endif
779b2e60773SJohn Baldwin 
780b2e60773SJohn Baldwin static void
781b2e60773SJohn Baldwin ktls_cleanup(struct ktls_session *tls)
782b2e60773SJohn Baldwin {
783b2e60773SJohn Baldwin 
784b2e60773SJohn Baldwin 	counter_u64_add(ktls_offload_active, -1);
7859e14430dSJohn Baldwin 	switch (tls->mode) {
7869e14430dSJohn Baldwin 	case TCP_TLS_MODE_SW:
787b2e60773SJohn Baldwin 		switch (tls->params.cipher_algorithm) {
788b2e60773SJohn Baldwin 		case CRYPTO_AES_CBC:
789b2e60773SJohn Baldwin 			counter_u64_add(ktls_sw_cbc, -1);
790b2e60773SJohn Baldwin 			break;
791b2e60773SJohn Baldwin 		case CRYPTO_AES_NIST_GCM_16:
792b2e60773SJohn Baldwin 			counter_u64_add(ktls_sw_gcm, -1);
793b2e60773SJohn Baldwin 			break;
7949c64fc40SJohn Baldwin 		case CRYPTO_CHACHA20_POLY1305:
7959c64fc40SJohn Baldwin 			counter_u64_add(ktls_sw_chacha20, -1);
7969c64fc40SJohn Baldwin 			break;
797b2e60773SJohn Baldwin 		}
7989e14430dSJohn Baldwin 		break;
7999e14430dSJohn Baldwin 	case TCP_TLS_MODE_IFNET:
800b2e60773SJohn Baldwin 		switch (tls->params.cipher_algorithm) {
801b2e60773SJohn Baldwin 		case CRYPTO_AES_CBC:
802b2e60773SJohn Baldwin 			counter_u64_add(ktls_ifnet_cbc, -1);
803b2e60773SJohn Baldwin 			break;
804b2e60773SJohn Baldwin 		case CRYPTO_AES_NIST_GCM_16:
805b2e60773SJohn Baldwin 			counter_u64_add(ktls_ifnet_gcm, -1);
806b2e60773SJohn Baldwin 			break;
8079c64fc40SJohn Baldwin 		case CRYPTO_CHACHA20_POLY1305:
8089c64fc40SJohn Baldwin 			counter_u64_add(ktls_ifnet_chacha20, -1);
8099c64fc40SJohn Baldwin 			break;
810b2e60773SJohn Baldwin 		}
8119675d889SAndrew Gallatin 		if (tls->snd_tag != NULL)
812b2e60773SJohn Baldwin 			m_snd_tag_rele(tls->snd_tag);
8139e14430dSJohn Baldwin 		break;
8149e14430dSJohn Baldwin #ifdef TCP_OFFLOAD
8159e14430dSJohn Baldwin 	case TCP_TLS_MODE_TOE:
8169e14430dSJohn Baldwin 		switch (tls->params.cipher_algorithm) {
8179e14430dSJohn Baldwin 		case CRYPTO_AES_CBC:
8189e14430dSJohn Baldwin 			counter_u64_add(ktls_toe_cbc, -1);
8199e14430dSJohn Baldwin 			break;
8209e14430dSJohn Baldwin 		case CRYPTO_AES_NIST_GCM_16:
8219e14430dSJohn Baldwin 			counter_u64_add(ktls_toe_gcm, -1);
8229e14430dSJohn Baldwin 			break;
8239c64fc40SJohn Baldwin 		case CRYPTO_CHACHA20_POLY1305:
8249c64fc40SJohn Baldwin 			counter_u64_add(ktls_toe_chacha20, -1);
8259c64fc40SJohn Baldwin 			break;
8269e14430dSJohn Baldwin 		}
8279e14430dSJohn Baldwin 		break;
8289e14430dSJohn Baldwin #endif
829b2e60773SJohn Baldwin 	}
83096668a81SJohn Baldwin 	if (tls->ocf_session != NULL)
83196668a81SJohn Baldwin 		ktls_ocf_free(tls);
832b2e60773SJohn Baldwin 	if (tls->params.auth_key != NULL) {
8334a711b8dSJohn Baldwin 		zfree(tls->params.auth_key, M_KTLS);
834b2e60773SJohn Baldwin 		tls->params.auth_key = NULL;
835b2e60773SJohn Baldwin 		tls->params.auth_key_len = 0;
836b2e60773SJohn Baldwin 	}
837b2e60773SJohn Baldwin 	if (tls->params.cipher_key != NULL) {
8384a711b8dSJohn Baldwin 		zfree(tls->params.cipher_key, M_KTLS);
839b2e60773SJohn Baldwin 		tls->params.cipher_key = NULL;
840b2e60773SJohn Baldwin 		tls->params.cipher_key_len = 0;
841b2e60773SJohn Baldwin 	}
842b2e60773SJohn Baldwin 	explicit_bzero(tls->params.iv, sizeof(tls->params.iv));
843b2e60773SJohn Baldwin }
844b2e60773SJohn Baldwin 
845b2e60773SJohn Baldwin #if defined(INET) || defined(INET6)
8469e14430dSJohn Baldwin 
8479e14430dSJohn Baldwin #ifdef TCP_OFFLOAD
8489e14430dSJohn Baldwin static int
849f1f93475SJohn Baldwin ktls_try_toe(struct socket *so, struct ktls_session *tls, int direction)
8509e14430dSJohn Baldwin {
8519e14430dSJohn Baldwin 	struct inpcb *inp;
8529e14430dSJohn Baldwin 	struct tcpcb *tp;
8539e14430dSJohn Baldwin 	int error;
8549e14430dSJohn Baldwin 
8559e14430dSJohn Baldwin 	inp = so->so_pcb;
8569e14430dSJohn Baldwin 	INP_WLOCK(inp);
8579e14430dSJohn Baldwin 	if (inp->inp_flags & (INP_TIMEWAIT | INP_DROPPED)) {
8589e14430dSJohn Baldwin 		INP_WUNLOCK(inp);
8599e14430dSJohn Baldwin 		return (ECONNRESET);
8609e14430dSJohn Baldwin 	}
8619e14430dSJohn Baldwin 	if (inp->inp_socket == NULL) {
8629e14430dSJohn Baldwin 		INP_WUNLOCK(inp);
8639e14430dSJohn Baldwin 		return (ECONNRESET);
8649e14430dSJohn Baldwin 	}
8659e14430dSJohn Baldwin 	tp = intotcpcb(inp);
8666bcf3c46SJohn Baldwin 	if (!(tp->t_flags & TF_TOE)) {
8679e14430dSJohn Baldwin 		INP_WUNLOCK(inp);
8689e14430dSJohn Baldwin 		return (EOPNOTSUPP);
8699e14430dSJohn Baldwin 	}
8709e14430dSJohn Baldwin 
871f1f93475SJohn Baldwin 	error = tcp_offload_alloc_tls_session(tp, tls, direction);
8729e14430dSJohn Baldwin 	INP_WUNLOCK(inp);
8739e14430dSJohn Baldwin 	if (error == 0) {
8749e14430dSJohn Baldwin 		tls->mode = TCP_TLS_MODE_TOE;
8759e14430dSJohn Baldwin 		switch (tls->params.cipher_algorithm) {
8769e14430dSJohn Baldwin 		case CRYPTO_AES_CBC:
8779e14430dSJohn Baldwin 			counter_u64_add(ktls_toe_cbc, 1);
8789e14430dSJohn Baldwin 			break;
8799e14430dSJohn Baldwin 		case CRYPTO_AES_NIST_GCM_16:
8809e14430dSJohn Baldwin 			counter_u64_add(ktls_toe_gcm, 1);
8819e14430dSJohn Baldwin 			break;
8829c64fc40SJohn Baldwin 		case CRYPTO_CHACHA20_POLY1305:
8839c64fc40SJohn Baldwin 			counter_u64_add(ktls_toe_chacha20, 1);
8849c64fc40SJohn Baldwin 			break;
8859e14430dSJohn Baldwin 		}
8869e14430dSJohn Baldwin 	}
8879e14430dSJohn Baldwin 	return (error);
8889e14430dSJohn Baldwin }
8899e14430dSJohn Baldwin #endif
8909e14430dSJohn Baldwin 
891b2e60773SJohn Baldwin /*
892b2e60773SJohn Baldwin  * Common code used when first enabling ifnet TLS on a connection or
893b2e60773SJohn Baldwin  * when allocating a new ifnet TLS session due to a routing change.
894b2e60773SJohn Baldwin  * This function allocates a new TLS send tag on whatever interface
895b2e60773SJohn Baldwin  * the connection is currently routed over.
896b2e60773SJohn Baldwin  */
897b2e60773SJohn Baldwin static int
898b2e60773SJohn Baldwin ktls_alloc_snd_tag(struct inpcb *inp, struct ktls_session *tls, bool force,
899b2e60773SJohn Baldwin     struct m_snd_tag **mstp)
900b2e60773SJohn Baldwin {
901b2e60773SJohn Baldwin 	union if_snd_tag_alloc_params params;
902b2e60773SJohn Baldwin 	struct ifnet *ifp;
903983066f0SAlexander V. Chernikov 	struct nhop_object *nh;
904b2e60773SJohn Baldwin 	struct tcpcb *tp;
905b2e60773SJohn Baldwin 	int error;
906b2e60773SJohn Baldwin 
907b2e60773SJohn Baldwin 	INP_RLOCK(inp);
908b2e60773SJohn Baldwin 	if (inp->inp_flags & (INP_TIMEWAIT | INP_DROPPED)) {
909b2e60773SJohn Baldwin 		INP_RUNLOCK(inp);
910b2e60773SJohn Baldwin 		return (ECONNRESET);
911b2e60773SJohn Baldwin 	}
912b2e60773SJohn Baldwin 	if (inp->inp_socket == NULL) {
913b2e60773SJohn Baldwin 		INP_RUNLOCK(inp);
914b2e60773SJohn Baldwin 		return (ECONNRESET);
915b2e60773SJohn Baldwin 	}
916b2e60773SJohn Baldwin 	tp = intotcpcb(inp);
917b2e60773SJohn Baldwin 
918b2e60773SJohn Baldwin 	/*
919b2e60773SJohn Baldwin 	 * Check administrative controls on ifnet TLS to determine if
920b2e60773SJohn Baldwin 	 * ifnet TLS should be denied.
921b2e60773SJohn Baldwin 	 *
922b2e60773SJohn Baldwin 	 * - Always permit 'force' requests.
923b2e60773SJohn Baldwin 	 * - ktls_ifnet_permitted == 0: always deny.
924b2e60773SJohn Baldwin 	 */
925b2e60773SJohn Baldwin 	if (!force && ktls_ifnet_permitted == 0) {
926b2e60773SJohn Baldwin 		INP_RUNLOCK(inp);
927b2e60773SJohn Baldwin 		return (ENXIO);
928b2e60773SJohn Baldwin 	}
929b2e60773SJohn Baldwin 
930b2e60773SJohn Baldwin 	/*
931b2e60773SJohn Baldwin 	 * XXX: Use the cached route in the inpcb to find the
932b2e60773SJohn Baldwin 	 * interface.  This should perhaps instead use
933b2e60773SJohn Baldwin 	 * rtalloc1_fib(dst, 0, 0, fibnum).  Since KTLS is only
934b2e60773SJohn Baldwin 	 * enabled after a connection has completed key negotiation in
935b2e60773SJohn Baldwin 	 * userland, the cached route will be present in practice.
936b2e60773SJohn Baldwin 	 */
937983066f0SAlexander V. Chernikov 	nh = inp->inp_route.ro_nh;
938983066f0SAlexander V. Chernikov 	if (nh == NULL) {
939b2e60773SJohn Baldwin 		INP_RUNLOCK(inp);
940b2e60773SJohn Baldwin 		return (ENXIO);
941b2e60773SJohn Baldwin 	}
942983066f0SAlexander V. Chernikov 	ifp = nh->nh_ifp;
943b2e60773SJohn Baldwin 	if_ref(ifp);
944b2e60773SJohn Baldwin 
945521eac97SJohn Baldwin 	/*
946521eac97SJohn Baldwin 	 * Allocate a TLS + ratelimit tag if the connection has an
947521eac97SJohn Baldwin 	 * existing pacing rate.
948521eac97SJohn Baldwin 	 */
949521eac97SJohn Baldwin 	if (tp->t_pacing_rate != -1 &&
950521eac97SJohn Baldwin 	    (ifp->if_capenable & IFCAP_TXTLS_RTLMT) != 0) {
951521eac97SJohn Baldwin 		params.hdr.type = IF_SND_TAG_TYPE_TLS_RATE_LIMIT;
952521eac97SJohn Baldwin 		params.tls_rate_limit.inp = inp;
953521eac97SJohn Baldwin 		params.tls_rate_limit.tls = tls;
954521eac97SJohn Baldwin 		params.tls_rate_limit.max_rate = tp->t_pacing_rate;
955521eac97SJohn Baldwin 	} else {
956b2e60773SJohn Baldwin 		params.hdr.type = IF_SND_TAG_TYPE_TLS;
957521eac97SJohn Baldwin 		params.tls.inp = inp;
958521eac97SJohn Baldwin 		params.tls.tls = tls;
959521eac97SJohn Baldwin 	}
960b2e60773SJohn Baldwin 	params.hdr.flowid = inp->inp_flowid;
961b2e60773SJohn Baldwin 	params.hdr.flowtype = inp->inp_flowtype;
96298085baeSAndrew Gallatin 	params.hdr.numa_domain = inp->inp_numa_domain;
963b2e60773SJohn Baldwin 	INP_RUNLOCK(inp);
964b2e60773SJohn Baldwin 
9653f43ada9SGleb Smirnoff 	if ((ifp->if_capenable & IFCAP_MEXTPG) == 0) {
966b2e60773SJohn Baldwin 		error = EOPNOTSUPP;
967b2e60773SJohn Baldwin 		goto out;
968b2e60773SJohn Baldwin 	}
969b2e60773SJohn Baldwin 	if (inp->inp_vflag & INP_IPV6) {
970b2e60773SJohn Baldwin 		if ((ifp->if_capenable & IFCAP_TXTLS6) == 0) {
971b2e60773SJohn Baldwin 			error = EOPNOTSUPP;
972b2e60773SJohn Baldwin 			goto out;
973b2e60773SJohn Baldwin 		}
974b2e60773SJohn Baldwin 	} else {
975b2e60773SJohn Baldwin 		if ((ifp->if_capenable & IFCAP_TXTLS4) == 0) {
976b2e60773SJohn Baldwin 			error = EOPNOTSUPP;
977b2e60773SJohn Baldwin 			goto out;
978b2e60773SJohn Baldwin 		}
979b2e60773SJohn Baldwin 	}
98036e0a362SJohn Baldwin 	error = m_snd_tag_alloc(ifp, &params, mstp);
981b2e60773SJohn Baldwin out:
982b2e60773SJohn Baldwin 	if_rele(ifp);
983b2e60773SJohn Baldwin 	return (error);
984b2e60773SJohn Baldwin }
985b2e60773SJohn Baldwin 
986b2e60773SJohn Baldwin static int
987b2e60773SJohn Baldwin ktls_try_ifnet(struct socket *so, struct ktls_session *tls, bool force)
988b2e60773SJohn Baldwin {
989b2e60773SJohn Baldwin 	struct m_snd_tag *mst;
990b2e60773SJohn Baldwin 	int error;
991b2e60773SJohn Baldwin 
992b2e60773SJohn Baldwin 	error = ktls_alloc_snd_tag(so->so_pcb, tls, force, &mst);
993b2e60773SJohn Baldwin 	if (error == 0) {
9949e14430dSJohn Baldwin 		tls->mode = TCP_TLS_MODE_IFNET;
995b2e60773SJohn Baldwin 		tls->snd_tag = mst;
996b2e60773SJohn Baldwin 		switch (tls->params.cipher_algorithm) {
997b2e60773SJohn Baldwin 		case CRYPTO_AES_CBC:
998b2e60773SJohn Baldwin 			counter_u64_add(ktls_ifnet_cbc, 1);
999b2e60773SJohn Baldwin 			break;
1000b2e60773SJohn Baldwin 		case CRYPTO_AES_NIST_GCM_16:
1001b2e60773SJohn Baldwin 			counter_u64_add(ktls_ifnet_gcm, 1);
1002b2e60773SJohn Baldwin 			break;
10039c64fc40SJohn Baldwin 		case CRYPTO_CHACHA20_POLY1305:
10049c64fc40SJohn Baldwin 			counter_u64_add(ktls_ifnet_chacha20, 1);
10059c64fc40SJohn Baldwin 			break;
1006b2e60773SJohn Baldwin 		}
1007b2e60773SJohn Baldwin 	}
1008b2e60773SJohn Baldwin 	return (error);
1009b2e60773SJohn Baldwin }
1010b2e60773SJohn Baldwin 
101196668a81SJohn Baldwin static void
101296668a81SJohn Baldwin ktls_use_sw(struct ktls_session *tls)
1013b2e60773SJohn Baldwin {
10149e14430dSJohn Baldwin 	tls->mode = TCP_TLS_MODE_SW;
1015b2e60773SJohn Baldwin 	switch (tls->params.cipher_algorithm) {
1016b2e60773SJohn Baldwin 	case CRYPTO_AES_CBC:
1017b2e60773SJohn Baldwin 		counter_u64_add(ktls_sw_cbc, 1);
1018b2e60773SJohn Baldwin 		break;
1019b2e60773SJohn Baldwin 	case CRYPTO_AES_NIST_GCM_16:
1020b2e60773SJohn Baldwin 		counter_u64_add(ktls_sw_gcm, 1);
1021b2e60773SJohn Baldwin 		break;
10229c64fc40SJohn Baldwin 	case CRYPTO_CHACHA20_POLY1305:
10239c64fc40SJohn Baldwin 		counter_u64_add(ktls_sw_chacha20, 1);
10249c64fc40SJohn Baldwin 		break;
1025b2e60773SJohn Baldwin 	}
102696668a81SJohn Baldwin }
102796668a81SJohn Baldwin 
102896668a81SJohn Baldwin static int
102996668a81SJohn Baldwin ktls_try_sw(struct socket *so, struct ktls_session *tls, int direction)
103096668a81SJohn Baldwin {
103196668a81SJohn Baldwin 	int error;
103296668a81SJohn Baldwin 
103396668a81SJohn Baldwin 	error = ktls_ocf_try(so, tls, direction);
103496668a81SJohn Baldwin 	if (error)
103596668a81SJohn Baldwin 		return (error);
103696668a81SJohn Baldwin 	ktls_use_sw(tls);
1037b2e60773SJohn Baldwin 	return (0);
1038b2e60773SJohn Baldwin }
1039b2e60773SJohn Baldwin 
10403c0e5685SJohn Baldwin /*
10413c0e5685SJohn Baldwin  * KTLS RX stores data in the socket buffer as a list of TLS records,
10423c0e5685SJohn Baldwin  * where each record is stored as a control message containg the TLS
10433c0e5685SJohn Baldwin  * header followed by data mbufs containing the decrypted data.  This
10443c0e5685SJohn Baldwin  * is different from KTLS TX which always uses an mb_ext_pgs mbuf for
10453c0e5685SJohn Baldwin  * both encrypted and decrypted data.  TLS records decrypted by a NIC
10463c0e5685SJohn Baldwin  * should be queued to the socket buffer as records, but encrypted
10473c0e5685SJohn Baldwin  * data which needs to be decrypted by software arrives as a stream of
10483c0e5685SJohn Baldwin  * regular mbufs which need to be converted.  In addition, there may
10493c0e5685SJohn Baldwin  * already be pending encrypted data in the socket buffer when KTLS RX
10503c0e5685SJohn Baldwin  * is enabled.
10513c0e5685SJohn Baldwin  *
10523c0e5685SJohn Baldwin  * To manage not-yet-decrypted data for KTLS RX, the following scheme
10533c0e5685SJohn Baldwin  * is used:
10543c0e5685SJohn Baldwin  *
10553c0e5685SJohn Baldwin  * - A single chain of NOTREADY mbufs is hung off of sb_mtls.
10563c0e5685SJohn Baldwin  *
10573c0e5685SJohn Baldwin  * - ktls_check_rx checks this chain of mbufs reading the TLS header
10583c0e5685SJohn Baldwin  *   from the first mbuf.  Once all of the data for that TLS record is
10593c0e5685SJohn Baldwin  *   queued, the socket is queued to a worker thread.
10603c0e5685SJohn Baldwin  *
10613c0e5685SJohn Baldwin  * - The worker thread calls ktls_decrypt to decrypt TLS records in
10623c0e5685SJohn Baldwin  *   the TLS chain.  Each TLS record is detached from the TLS chain,
10633c0e5685SJohn Baldwin  *   decrypted, and inserted into the regular socket buffer chain as
10643c0e5685SJohn Baldwin  *   record starting with a control message holding the TLS header and
10653c0e5685SJohn Baldwin  *   a chain of mbufs holding the encrypted data.
10663c0e5685SJohn Baldwin  */
10673c0e5685SJohn Baldwin 
10683c0e5685SJohn Baldwin static void
10693c0e5685SJohn Baldwin sb_mark_notready(struct sockbuf *sb)
10703c0e5685SJohn Baldwin {
10713c0e5685SJohn Baldwin 	struct mbuf *m;
10723c0e5685SJohn Baldwin 
10733c0e5685SJohn Baldwin 	m = sb->sb_mb;
10743c0e5685SJohn Baldwin 	sb->sb_mtls = m;
10753c0e5685SJohn Baldwin 	sb->sb_mb = NULL;
10763c0e5685SJohn Baldwin 	sb->sb_mbtail = NULL;
10773c0e5685SJohn Baldwin 	sb->sb_lastrecord = NULL;
10783c0e5685SJohn Baldwin 	for (; m != NULL; m = m->m_next) {
10793c0e5685SJohn Baldwin 		KASSERT(m->m_nextpkt == NULL, ("%s: m_nextpkt != NULL",
10803c0e5685SJohn Baldwin 		    __func__));
10813c0e5685SJohn Baldwin 		KASSERT((m->m_flags & M_NOTAVAIL) == 0, ("%s: mbuf not avail",
10823c0e5685SJohn Baldwin 		    __func__));
10833c0e5685SJohn Baldwin 		KASSERT(sb->sb_acc >= m->m_len, ("%s: sb_acc < m->m_len",
10843c0e5685SJohn Baldwin 		    __func__));
10853c0e5685SJohn Baldwin 		m->m_flags |= M_NOTREADY;
10863c0e5685SJohn Baldwin 		sb->sb_acc -= m->m_len;
10873c0e5685SJohn Baldwin 		sb->sb_tlscc += m->m_len;
10883c0e5685SJohn Baldwin 		sb->sb_mtlstail = m;
10893c0e5685SJohn Baldwin 	}
10903c0e5685SJohn Baldwin 	KASSERT(sb->sb_acc == 0 && sb->sb_tlscc == sb->sb_ccc,
10913c0e5685SJohn Baldwin 	    ("%s: acc %u tlscc %u ccc %u", __func__, sb->sb_acc, sb->sb_tlscc,
10923c0e5685SJohn Baldwin 	    sb->sb_ccc));
10933c0e5685SJohn Baldwin }
10943c0e5685SJohn Baldwin 
1095c57dbec6SJohn Baldwin /*
1096c57dbec6SJohn Baldwin  * Return information about the pending TLS data in a socket
1097c57dbec6SJohn Baldwin  * buffer.  On return, 'seqno' is set to the sequence number
1098c57dbec6SJohn Baldwin  * of the next TLS record to be received, 'resid' is set to
1099c57dbec6SJohn Baldwin  * the amount of bytes still needed for the last pending
1100c57dbec6SJohn Baldwin  * record.  The function returns 'false' if the last pending
1101c57dbec6SJohn Baldwin  * record contains a partial TLS header.  In that case, 'resid'
1102c57dbec6SJohn Baldwin  * is the number of bytes needed to complete the TLS header.
1103c57dbec6SJohn Baldwin  */
1104c57dbec6SJohn Baldwin bool
1105c57dbec6SJohn Baldwin ktls_pending_rx_info(struct sockbuf *sb, uint64_t *seqnop, size_t *residp)
1106c57dbec6SJohn Baldwin {
1107c57dbec6SJohn Baldwin 	struct tls_record_layer hdr;
1108c57dbec6SJohn Baldwin 	struct mbuf *m;
1109c57dbec6SJohn Baldwin 	uint64_t seqno;
1110c57dbec6SJohn Baldwin 	size_t resid;
1111c57dbec6SJohn Baldwin 	u_int offset, record_len;
1112c57dbec6SJohn Baldwin 
1113c57dbec6SJohn Baldwin 	SOCKBUF_LOCK_ASSERT(sb);
1114c57dbec6SJohn Baldwin 	MPASS(sb->sb_flags & SB_TLS_RX);
1115c57dbec6SJohn Baldwin 	seqno = sb->sb_tls_seqno;
1116c57dbec6SJohn Baldwin 	resid = sb->sb_tlscc;
1117c57dbec6SJohn Baldwin 	m = sb->sb_mtls;
1118c57dbec6SJohn Baldwin 	offset = 0;
1119c57dbec6SJohn Baldwin 
1120c57dbec6SJohn Baldwin 	if (resid == 0) {
1121c57dbec6SJohn Baldwin 		*seqnop = seqno;
1122c57dbec6SJohn Baldwin 		*residp = 0;
1123c57dbec6SJohn Baldwin 		return (true);
1124c57dbec6SJohn Baldwin 	}
1125c57dbec6SJohn Baldwin 
1126c57dbec6SJohn Baldwin 	for (;;) {
1127c57dbec6SJohn Baldwin 		seqno++;
1128c57dbec6SJohn Baldwin 
1129c57dbec6SJohn Baldwin 		if (resid < sizeof(hdr)) {
1130c57dbec6SJohn Baldwin 			*seqnop = seqno;
1131c57dbec6SJohn Baldwin 			*residp = sizeof(hdr) - resid;
1132c57dbec6SJohn Baldwin 			return (false);
1133c57dbec6SJohn Baldwin 		}
1134c57dbec6SJohn Baldwin 
1135c57dbec6SJohn Baldwin 		m_copydata(m, offset, sizeof(hdr), (void *)&hdr);
1136c57dbec6SJohn Baldwin 
1137c57dbec6SJohn Baldwin 		record_len = sizeof(hdr) + ntohs(hdr.tls_length);
1138c57dbec6SJohn Baldwin 		if (resid <= record_len) {
1139c57dbec6SJohn Baldwin 			*seqnop = seqno;
1140c57dbec6SJohn Baldwin 			*residp = record_len - resid;
1141c57dbec6SJohn Baldwin 			return (true);
1142c57dbec6SJohn Baldwin 		}
1143c57dbec6SJohn Baldwin 		resid -= record_len;
1144c57dbec6SJohn Baldwin 
1145c57dbec6SJohn Baldwin 		while (record_len != 0) {
1146c57dbec6SJohn Baldwin 			if (m->m_len - offset > record_len) {
1147c57dbec6SJohn Baldwin 				offset += record_len;
1148c57dbec6SJohn Baldwin 				break;
1149c57dbec6SJohn Baldwin 			}
1150c57dbec6SJohn Baldwin 
1151c57dbec6SJohn Baldwin 			record_len -= (m->m_len - offset);
1152c57dbec6SJohn Baldwin 			offset = 0;
1153c57dbec6SJohn Baldwin 			m = m->m_next;
1154c57dbec6SJohn Baldwin 		}
1155c57dbec6SJohn Baldwin 	}
1156c57dbec6SJohn Baldwin }
1157c57dbec6SJohn Baldwin 
1158b2e60773SJohn Baldwin int
1159f1f93475SJohn Baldwin ktls_enable_rx(struct socket *so, struct tls_enable *en)
1160f1f93475SJohn Baldwin {
1161f1f93475SJohn Baldwin 	struct ktls_session *tls;
1162f1f93475SJohn Baldwin 	int error;
1163f1f93475SJohn Baldwin 
1164f1f93475SJohn Baldwin 	if (!ktls_offload_enable)
1165f1f93475SJohn Baldwin 		return (ENOTSUP);
11666685e259SMichael Tuexen 	if (SOLISTENING(so))
11676685e259SMichael Tuexen 		return (EINVAL);
1168f1f93475SJohn Baldwin 
1169f1f93475SJohn Baldwin 	counter_u64_add(ktls_offload_enable_calls, 1);
1170f1f93475SJohn Baldwin 
1171f1f93475SJohn Baldwin 	/*
1172f1f93475SJohn Baldwin 	 * This should always be true since only the TCP socket option
1173f1f93475SJohn Baldwin 	 * invokes this function.
1174f1f93475SJohn Baldwin 	 */
1175f1f93475SJohn Baldwin 	if (so->so_proto->pr_protocol != IPPROTO_TCP)
1176f1f93475SJohn Baldwin 		return (EINVAL);
1177f1f93475SJohn Baldwin 
1178f1f93475SJohn Baldwin 	/*
1179f1f93475SJohn Baldwin 	 * XXX: Don't overwrite existing sessions.  We should permit
1180f1f93475SJohn Baldwin 	 * this to support rekeying in the future.
1181f1f93475SJohn Baldwin 	 */
1182f1f93475SJohn Baldwin 	if (so->so_rcv.sb_tls_info != NULL)
1183f1f93475SJohn Baldwin 		return (EALREADY);
1184f1f93475SJohn Baldwin 
1185f1f93475SJohn Baldwin 	if (en->cipher_algorithm == CRYPTO_AES_CBC && !ktls_cbc_enable)
1186f1f93475SJohn Baldwin 		return (ENOTSUP);
1187f1f93475SJohn Baldwin 
1188f1f93475SJohn Baldwin 	error = ktls_create_session(so, en, &tls);
1189f1f93475SJohn Baldwin 	if (error)
1190f1f93475SJohn Baldwin 		return (error);
1191f1f93475SJohn Baldwin 
119296668a81SJohn Baldwin 	error = ktls_ocf_try(so, tls, KTLS_RX);
1193f1f93475SJohn Baldwin 	if (error) {
1194f1f93475SJohn Baldwin 		ktls_cleanup(tls);
1195f1f93475SJohn Baldwin 		return (error);
1196f1f93475SJohn Baldwin 	}
1197f1f93475SJohn Baldwin 
119896668a81SJohn Baldwin #ifdef TCP_OFFLOAD
119996668a81SJohn Baldwin 	error = ktls_try_toe(so, tls, KTLS_RX);
120096668a81SJohn Baldwin 	if (error)
120196668a81SJohn Baldwin #endif
120296668a81SJohn Baldwin 		ktls_use_sw(tls);
120396668a81SJohn Baldwin 
1204f1f93475SJohn Baldwin 	/* Mark the socket as using TLS offload. */
1205f1f93475SJohn Baldwin 	SOCKBUF_LOCK(&so->so_rcv);
12063c0e5685SJohn Baldwin 	so->so_rcv.sb_tls_seqno = be64dec(en->rec_seq);
1207f1f93475SJohn Baldwin 	so->so_rcv.sb_tls_info = tls;
12083c0e5685SJohn Baldwin 	so->so_rcv.sb_flags |= SB_TLS_RX;
12093c0e5685SJohn Baldwin 
12103c0e5685SJohn Baldwin 	/* Mark existing data as not ready until it can be decrypted. */
1211faf0224fSJohn Baldwin 	if (tls->mode != TCP_TLS_MODE_TOE) {
12123c0e5685SJohn Baldwin 		sb_mark_notready(&so->so_rcv);
12133c0e5685SJohn Baldwin 		ktls_check_rx(&so->so_rcv);
1214faf0224fSJohn Baldwin 	}
1215f1f93475SJohn Baldwin 	SOCKBUF_UNLOCK(&so->so_rcv);
1216f1f93475SJohn Baldwin 
1217f1f93475SJohn Baldwin 	counter_u64_add(ktls_offload_total, 1);
1218f1f93475SJohn Baldwin 
1219f1f93475SJohn Baldwin 	return (0);
1220f1f93475SJohn Baldwin }
1221f1f93475SJohn Baldwin 
1222f1f93475SJohn Baldwin int
1223b2e60773SJohn Baldwin ktls_enable_tx(struct socket *so, struct tls_enable *en)
1224b2e60773SJohn Baldwin {
1225b2e60773SJohn Baldwin 	struct ktls_session *tls;
1226521eac97SJohn Baldwin 	struct inpcb *inp;
1227b2e60773SJohn Baldwin 	int error;
1228b2e60773SJohn Baldwin 
1229b2e60773SJohn Baldwin 	if (!ktls_offload_enable)
1230b2e60773SJohn Baldwin 		return (ENOTSUP);
12316685e259SMichael Tuexen 	if (SOLISTENING(so))
12326685e259SMichael Tuexen 		return (EINVAL);
1233b2e60773SJohn Baldwin 
1234b2e60773SJohn Baldwin 	counter_u64_add(ktls_offload_enable_calls, 1);
1235b2e60773SJohn Baldwin 
1236b2e60773SJohn Baldwin 	/*
1237b2e60773SJohn Baldwin 	 * This should always be true since only the TCP socket option
1238b2e60773SJohn Baldwin 	 * invokes this function.
1239b2e60773SJohn Baldwin 	 */
1240b2e60773SJohn Baldwin 	if (so->so_proto->pr_protocol != IPPROTO_TCP)
1241b2e60773SJohn Baldwin 		return (EINVAL);
1242b2e60773SJohn Baldwin 
1243b2e60773SJohn Baldwin 	/*
1244b2e60773SJohn Baldwin 	 * XXX: Don't overwrite existing sessions.  We should permit
1245b2e60773SJohn Baldwin 	 * this to support rekeying in the future.
1246b2e60773SJohn Baldwin 	 */
1247b2e60773SJohn Baldwin 	if (so->so_snd.sb_tls_info != NULL)
1248b2e60773SJohn Baldwin 		return (EALREADY);
1249b2e60773SJohn Baldwin 
1250b2e60773SJohn Baldwin 	if (en->cipher_algorithm == CRYPTO_AES_CBC && !ktls_cbc_enable)
1251b2e60773SJohn Baldwin 		return (ENOTSUP);
1252b2e60773SJohn Baldwin 
1253b2e60773SJohn Baldwin 	/* TLS requires ext pgs */
1254b2e60773SJohn Baldwin 	if (mb_use_ext_pgs == 0)
1255b2e60773SJohn Baldwin 		return (ENXIO);
1256b2e60773SJohn Baldwin 
1257b2e60773SJohn Baldwin 	error = ktls_create_session(so, en, &tls);
1258b2e60773SJohn Baldwin 	if (error)
1259b2e60773SJohn Baldwin 		return (error);
1260b2e60773SJohn Baldwin 
12619e14430dSJohn Baldwin 	/* Prefer TOE -> ifnet TLS -> software TLS. */
12629e14430dSJohn Baldwin #ifdef TCP_OFFLOAD
1263f1f93475SJohn Baldwin 	error = ktls_try_toe(so, tls, KTLS_TX);
12649e14430dSJohn Baldwin 	if (error)
12659e14430dSJohn Baldwin #endif
1266b2e60773SJohn Baldwin 		error = ktls_try_ifnet(so, tls, false);
1267b2e60773SJohn Baldwin 	if (error)
12683c0e5685SJohn Baldwin 		error = ktls_try_sw(so, tls, KTLS_TX);
1269b2e60773SJohn Baldwin 
1270b2e60773SJohn Baldwin 	if (error) {
1271b2e60773SJohn Baldwin 		ktls_cleanup(tls);
1272b2e60773SJohn Baldwin 		return (error);
1273b2e60773SJohn Baldwin 	}
1274b2e60773SJohn Baldwin 
1275f94acf52SMark Johnston 	error = SOCK_IO_SEND_LOCK(so, SBL_WAIT);
1276b2e60773SJohn Baldwin 	if (error) {
1277b2e60773SJohn Baldwin 		ktls_cleanup(tls);
1278b2e60773SJohn Baldwin 		return (error);
1279b2e60773SJohn Baldwin 	}
1280b2e60773SJohn Baldwin 
1281521eac97SJohn Baldwin 	/*
1282521eac97SJohn Baldwin 	 * Write lock the INP when setting sb_tls_info so that
1283521eac97SJohn Baldwin 	 * routines in tcp_ratelimit.c can read sb_tls_info while
1284521eac97SJohn Baldwin 	 * holding the INP lock.
1285521eac97SJohn Baldwin 	 */
1286521eac97SJohn Baldwin 	inp = so->so_pcb;
1287521eac97SJohn Baldwin 	INP_WLOCK(inp);
1288b2e60773SJohn Baldwin 	SOCKBUF_LOCK(&so->so_snd);
1289ec1db6e1SJohn Baldwin 	so->so_snd.sb_tls_seqno = be64dec(en->rec_seq);
1290b2e60773SJohn Baldwin 	so->so_snd.sb_tls_info = tls;
12919e14430dSJohn Baldwin 	if (tls->mode != TCP_TLS_MODE_SW)
1292b2e60773SJohn Baldwin 		so->so_snd.sb_flags |= SB_TLS_IFNET;
1293b2e60773SJohn Baldwin 	SOCKBUF_UNLOCK(&so->so_snd);
1294521eac97SJohn Baldwin 	INP_WUNLOCK(inp);
1295f94acf52SMark Johnston 	SOCK_IO_SEND_UNLOCK(so);
1296b2e60773SJohn Baldwin 
1297b2e60773SJohn Baldwin 	counter_u64_add(ktls_offload_total, 1);
1298b2e60773SJohn Baldwin 
1299b2e60773SJohn Baldwin 	return (0);
1300b2e60773SJohn Baldwin }
1301b2e60773SJohn Baldwin 
1302b2e60773SJohn Baldwin int
1303bf256782SMark Johnston ktls_get_rx_mode(struct socket *so, int *modep)
1304f1f93475SJohn Baldwin {
1305f1f93475SJohn Baldwin 	struct ktls_session *tls;
1306a90b85ddSMateusz Guzik 	struct inpcb *inp __diagused;
1307f1f93475SJohn Baldwin 
13086685e259SMichael Tuexen 	if (SOLISTENING(so))
13096685e259SMichael Tuexen 		return (EINVAL);
1310f1f93475SJohn Baldwin 	inp = so->so_pcb;
1311f1f93475SJohn Baldwin 	INP_WLOCK_ASSERT(inp);
1312bf256782SMark Johnston 	SOCK_RECVBUF_LOCK(so);
1313f1f93475SJohn Baldwin 	tls = so->so_rcv.sb_tls_info;
1314f1f93475SJohn Baldwin 	if (tls == NULL)
1315bf256782SMark Johnston 		*modep = TCP_TLS_MODE_NONE;
1316f1f93475SJohn Baldwin 	else
1317bf256782SMark Johnston 		*modep = tls->mode;
1318bf256782SMark Johnston 	SOCK_RECVBUF_UNLOCK(so);
1319bf256782SMark Johnston 	return (0);
1320f1f93475SJohn Baldwin }
1321f1f93475SJohn Baldwin 
1322f1f93475SJohn Baldwin int
1323bf256782SMark Johnston ktls_get_tx_mode(struct socket *so, int *modep)
1324b2e60773SJohn Baldwin {
1325b2e60773SJohn Baldwin 	struct ktls_session *tls;
1326a90b85ddSMateusz Guzik 	struct inpcb *inp __diagused;
1327b2e60773SJohn Baldwin 
13286685e259SMichael Tuexen 	if (SOLISTENING(so))
13296685e259SMichael Tuexen 		return (EINVAL);
1330b2e60773SJohn Baldwin 	inp = so->so_pcb;
1331b2e60773SJohn Baldwin 	INP_WLOCK_ASSERT(inp);
1332bf256782SMark Johnston 	SOCK_SENDBUF_LOCK(so);
1333b2e60773SJohn Baldwin 	tls = so->so_snd.sb_tls_info;
1334b2e60773SJohn Baldwin 	if (tls == NULL)
1335bf256782SMark Johnston 		*modep = TCP_TLS_MODE_NONE;
1336b2e60773SJohn Baldwin 	else
1337bf256782SMark Johnston 		*modep = tls->mode;
1338bf256782SMark Johnston 	SOCK_SENDBUF_UNLOCK(so);
1339bf256782SMark Johnston 	return (0);
1340b2e60773SJohn Baldwin }
1341b2e60773SJohn Baldwin 
1342b2e60773SJohn Baldwin /*
1343b2e60773SJohn Baldwin  * Switch between SW and ifnet TLS sessions as requested.
1344b2e60773SJohn Baldwin  */
1345b2e60773SJohn Baldwin int
1346b2e60773SJohn Baldwin ktls_set_tx_mode(struct socket *so, int mode)
1347b2e60773SJohn Baldwin {
1348b2e60773SJohn Baldwin 	struct ktls_session *tls, *tls_new;
1349b2e60773SJohn Baldwin 	struct inpcb *inp;
1350b2e60773SJohn Baldwin 	int error;
1351b2e60773SJohn Baldwin 
13526685e259SMichael Tuexen 	if (SOLISTENING(so))
13536685e259SMichael Tuexen 		return (EINVAL);
13549e14430dSJohn Baldwin 	switch (mode) {
13559e14430dSJohn Baldwin 	case TCP_TLS_MODE_SW:
13569e14430dSJohn Baldwin 	case TCP_TLS_MODE_IFNET:
13579e14430dSJohn Baldwin 		break;
13589e14430dSJohn Baldwin 	default:
13599e14430dSJohn Baldwin 		return (EINVAL);
13609e14430dSJohn Baldwin 	}
1361b2e60773SJohn Baldwin 
1362b2e60773SJohn Baldwin 	inp = so->so_pcb;
1363b2e60773SJohn Baldwin 	INP_WLOCK_ASSERT(inp);
1364b2e60773SJohn Baldwin 	SOCKBUF_LOCK(&so->so_snd);
1365b2e60773SJohn Baldwin 	tls = so->so_snd.sb_tls_info;
1366b2e60773SJohn Baldwin 	if (tls == NULL) {
1367b2e60773SJohn Baldwin 		SOCKBUF_UNLOCK(&so->so_snd);
1368b2e60773SJohn Baldwin 		return (0);
1369b2e60773SJohn Baldwin 	}
1370b2e60773SJohn Baldwin 
13719e14430dSJohn Baldwin 	if (tls->mode == mode) {
1372b2e60773SJohn Baldwin 		SOCKBUF_UNLOCK(&so->so_snd);
1373b2e60773SJohn Baldwin 		return (0);
1374b2e60773SJohn Baldwin 	}
1375b2e60773SJohn Baldwin 
1376b2e60773SJohn Baldwin 	tls = ktls_hold(tls);
1377b2e60773SJohn Baldwin 	SOCKBUF_UNLOCK(&so->so_snd);
1378b2e60773SJohn Baldwin 	INP_WUNLOCK(inp);
1379b2e60773SJohn Baldwin 
1380b2e60773SJohn Baldwin 	tls_new = ktls_clone_session(tls);
1381b2e60773SJohn Baldwin 
1382b2e60773SJohn Baldwin 	if (mode == TCP_TLS_MODE_IFNET)
1383b2e60773SJohn Baldwin 		error = ktls_try_ifnet(so, tls_new, true);
1384b2e60773SJohn Baldwin 	else
13853c0e5685SJohn Baldwin 		error = ktls_try_sw(so, tls_new, KTLS_TX);
1386b2e60773SJohn Baldwin 	if (error) {
1387b2e60773SJohn Baldwin 		counter_u64_add(ktls_switch_failed, 1);
1388b2e60773SJohn Baldwin 		ktls_free(tls_new);
1389b2e60773SJohn Baldwin 		ktls_free(tls);
1390b2e60773SJohn Baldwin 		INP_WLOCK(inp);
1391b2e60773SJohn Baldwin 		return (error);
1392b2e60773SJohn Baldwin 	}
1393b2e60773SJohn Baldwin 
1394f94acf52SMark Johnston 	error = SOCK_IO_SEND_LOCK(so, SBL_WAIT);
1395b2e60773SJohn Baldwin 	if (error) {
1396b2e60773SJohn Baldwin 		counter_u64_add(ktls_switch_failed, 1);
1397b2e60773SJohn Baldwin 		ktls_free(tls_new);
1398b2e60773SJohn Baldwin 		ktls_free(tls);
1399b2e60773SJohn Baldwin 		INP_WLOCK(inp);
1400b2e60773SJohn Baldwin 		return (error);
1401b2e60773SJohn Baldwin 	}
1402b2e60773SJohn Baldwin 
1403b2e60773SJohn Baldwin 	/*
1404b2e60773SJohn Baldwin 	 * If we raced with another session change, keep the existing
1405b2e60773SJohn Baldwin 	 * session.
1406b2e60773SJohn Baldwin 	 */
1407b2e60773SJohn Baldwin 	if (tls != so->so_snd.sb_tls_info) {
1408b2e60773SJohn Baldwin 		counter_u64_add(ktls_switch_failed, 1);
1409f94acf52SMark Johnston 		SOCK_IO_SEND_UNLOCK(so);
1410b2e60773SJohn Baldwin 		ktls_free(tls_new);
1411b2e60773SJohn Baldwin 		ktls_free(tls);
1412b2e60773SJohn Baldwin 		INP_WLOCK(inp);
1413b2e60773SJohn Baldwin 		return (EBUSY);
1414b2e60773SJohn Baldwin 	}
1415b2e60773SJohn Baldwin 
1416b2e60773SJohn Baldwin 	SOCKBUF_LOCK(&so->so_snd);
1417b2e60773SJohn Baldwin 	so->so_snd.sb_tls_info = tls_new;
14189e14430dSJohn Baldwin 	if (tls_new->mode != TCP_TLS_MODE_SW)
1419b2e60773SJohn Baldwin 		so->so_snd.sb_flags |= SB_TLS_IFNET;
1420b2e60773SJohn Baldwin 	SOCKBUF_UNLOCK(&so->so_snd);
1421f94acf52SMark Johnston 	SOCK_IO_SEND_UNLOCK(so);
1422b2e60773SJohn Baldwin 
1423b2e60773SJohn Baldwin 	/*
1424b2e60773SJohn Baldwin 	 * Drop two references on 'tls'.  The first is for the
1425b2e60773SJohn Baldwin 	 * ktls_hold() above.  The second drops the reference from the
1426b2e60773SJohn Baldwin 	 * socket buffer.
1427b2e60773SJohn Baldwin 	 */
1428b2e60773SJohn Baldwin 	KASSERT(tls->refcount >= 2, ("too few references on old session"));
1429b2e60773SJohn Baldwin 	ktls_free(tls);
1430b2e60773SJohn Baldwin 	ktls_free(tls);
1431b2e60773SJohn Baldwin 
1432b2e60773SJohn Baldwin 	if (mode == TCP_TLS_MODE_IFNET)
1433b2e60773SJohn Baldwin 		counter_u64_add(ktls_switch_to_ifnet, 1);
1434b2e60773SJohn Baldwin 	else
1435b2e60773SJohn Baldwin 		counter_u64_add(ktls_switch_to_sw, 1);
1436b2e60773SJohn Baldwin 
1437b2e60773SJohn Baldwin 	INP_WLOCK(inp);
1438b2e60773SJohn Baldwin 	return (0);
1439b2e60773SJohn Baldwin }
1440b2e60773SJohn Baldwin 
1441b2e60773SJohn Baldwin /*
1442b2e60773SJohn Baldwin  * Try to allocate a new TLS send tag.  This task is scheduled when
1443b2e60773SJohn Baldwin  * ip_output detects a route change while trying to transmit a packet
1444b2e60773SJohn Baldwin  * holding a TLS record.  If a new tag is allocated, replace the tag
1445b2e60773SJohn Baldwin  * in the TLS session.  Subsequent packets on the connection will use
1446b2e60773SJohn Baldwin  * the new tag.  If a new tag cannot be allocated, drop the
1447b2e60773SJohn Baldwin  * connection.
1448b2e60773SJohn Baldwin  */
1449b2e60773SJohn Baldwin static void
1450b2e60773SJohn Baldwin ktls_reset_send_tag(void *context, int pending)
1451b2e60773SJohn Baldwin {
1452b2e60773SJohn Baldwin 	struct epoch_tracker et;
1453b2e60773SJohn Baldwin 	struct ktls_session *tls;
1454b2e60773SJohn Baldwin 	struct m_snd_tag *old, *new;
1455b2e60773SJohn Baldwin 	struct inpcb *inp;
1456b2e60773SJohn Baldwin 	struct tcpcb *tp;
1457b2e60773SJohn Baldwin 	int error;
1458b2e60773SJohn Baldwin 
1459b2e60773SJohn Baldwin 	MPASS(pending == 1);
1460b2e60773SJohn Baldwin 
1461b2e60773SJohn Baldwin 	tls = context;
1462b2e60773SJohn Baldwin 	inp = tls->inp;
1463b2e60773SJohn Baldwin 
1464b2e60773SJohn Baldwin 	/*
1465b2e60773SJohn Baldwin 	 * Free the old tag first before allocating a new one.
1466b2e60773SJohn Baldwin 	 * ip[6]_output_send() will treat a NULL send tag the same as
1467b2e60773SJohn Baldwin 	 * an ifp mismatch and drop packets until a new tag is
1468b2e60773SJohn Baldwin 	 * allocated.
1469b2e60773SJohn Baldwin 	 *
1470b2e60773SJohn Baldwin 	 * Write-lock the INP when changing tls->snd_tag since
1471b2e60773SJohn Baldwin 	 * ip[6]_output_send() holds a read-lock when reading the
1472b2e60773SJohn Baldwin 	 * pointer.
1473b2e60773SJohn Baldwin 	 */
1474b2e60773SJohn Baldwin 	INP_WLOCK(inp);
1475b2e60773SJohn Baldwin 	old = tls->snd_tag;
1476b2e60773SJohn Baldwin 	tls->snd_tag = NULL;
1477b2e60773SJohn Baldwin 	INP_WUNLOCK(inp);
1478b2e60773SJohn Baldwin 	if (old != NULL)
1479b2e60773SJohn Baldwin 		m_snd_tag_rele(old);
1480b2e60773SJohn Baldwin 
1481b2e60773SJohn Baldwin 	error = ktls_alloc_snd_tag(inp, tls, true, &new);
1482b2e60773SJohn Baldwin 
1483b2e60773SJohn Baldwin 	if (error == 0) {
1484b2e60773SJohn Baldwin 		INP_WLOCK(inp);
1485b2e60773SJohn Baldwin 		tls->snd_tag = new;
1486b2e60773SJohn Baldwin 		mtx_pool_lock(mtxpool_sleep, tls);
1487b2e60773SJohn Baldwin 		tls->reset_pending = false;
1488b2e60773SJohn Baldwin 		mtx_pool_unlock(mtxpool_sleep, tls);
1489b2e60773SJohn Baldwin 		if (!in_pcbrele_wlocked(inp))
1490b2e60773SJohn Baldwin 			INP_WUNLOCK(inp);
1491b2e60773SJohn Baldwin 
1492b2e60773SJohn Baldwin 		counter_u64_add(ktls_ifnet_reset, 1);
1493b2e60773SJohn Baldwin 
1494b2e60773SJohn Baldwin 		/*
1495b2e60773SJohn Baldwin 		 * XXX: Should we kick tcp_output explicitly now that
1496b2e60773SJohn Baldwin 		 * the send tag is fixed or just rely on timers?
1497b2e60773SJohn Baldwin 		 */
1498b2e60773SJohn Baldwin 	} else {
14991a496125SGleb Smirnoff 		NET_EPOCH_ENTER(et);
1500b2e60773SJohn Baldwin 		INP_WLOCK(inp);
1501b2e60773SJohn Baldwin 		if (!in_pcbrele_wlocked(inp)) {
1502b2e60773SJohn Baldwin 			if (!(inp->inp_flags & INP_TIMEWAIT) &&
1503b2e60773SJohn Baldwin 			    !(inp->inp_flags & INP_DROPPED)) {
1504b2e60773SJohn Baldwin 				tp = intotcpcb(inp);
15051f69a509SHans Petter Selasky 				CURVNET_SET(tp->t_vnet);
1506b2e60773SJohn Baldwin 				tp = tcp_drop(tp, ECONNABORTED);
15071f69a509SHans Petter Selasky 				CURVNET_RESTORE();
1508b2e60773SJohn Baldwin 				if (tp != NULL)
1509b2e60773SJohn Baldwin 					INP_WUNLOCK(inp);
1510b2e60773SJohn Baldwin 				counter_u64_add(ktls_ifnet_reset_dropped, 1);
1511b2e60773SJohn Baldwin 			} else
1512b2e60773SJohn Baldwin 				INP_WUNLOCK(inp);
1513b2e60773SJohn Baldwin 		}
15141a496125SGleb Smirnoff 		NET_EPOCH_EXIT(et);
1515b2e60773SJohn Baldwin 
1516b2e60773SJohn Baldwin 		counter_u64_add(ktls_ifnet_reset_failed, 1);
1517b2e60773SJohn Baldwin 
1518b2e60773SJohn Baldwin 		/*
1519b2e60773SJohn Baldwin 		 * Leave reset_pending true to avoid future tasks while
1520b2e60773SJohn Baldwin 		 * the socket goes away.
1521b2e60773SJohn Baldwin 		 */
1522b2e60773SJohn Baldwin 	}
1523b2e60773SJohn Baldwin 
1524b2e60773SJohn Baldwin 	ktls_free(tls);
1525b2e60773SJohn Baldwin }
1526b2e60773SJohn Baldwin 
1527b2e60773SJohn Baldwin int
1528b2e60773SJohn Baldwin ktls_output_eagain(struct inpcb *inp, struct ktls_session *tls)
1529b2e60773SJohn Baldwin {
1530b2e60773SJohn Baldwin 
1531b2e60773SJohn Baldwin 	if (inp == NULL)
1532b2e60773SJohn Baldwin 		return (ENOBUFS);
1533b2e60773SJohn Baldwin 
1534b2e60773SJohn Baldwin 	INP_LOCK_ASSERT(inp);
1535b2e60773SJohn Baldwin 
1536b2e60773SJohn Baldwin 	/*
1537b2e60773SJohn Baldwin 	 * See if we should schedule a task to update the send tag for
1538b2e60773SJohn Baldwin 	 * this session.
1539b2e60773SJohn Baldwin 	 */
1540b2e60773SJohn Baldwin 	mtx_pool_lock(mtxpool_sleep, tls);
1541b2e60773SJohn Baldwin 	if (!tls->reset_pending) {
1542b2e60773SJohn Baldwin 		(void) ktls_hold(tls);
1543b2e60773SJohn Baldwin 		in_pcbref(inp);
1544b2e60773SJohn Baldwin 		tls->inp = inp;
1545b2e60773SJohn Baldwin 		tls->reset_pending = true;
1546b2e60773SJohn Baldwin 		taskqueue_enqueue(taskqueue_thread, &tls->reset_tag_task);
1547b2e60773SJohn Baldwin 	}
1548b2e60773SJohn Baldwin 	mtx_pool_unlock(mtxpool_sleep, tls);
1549b2e60773SJohn Baldwin 	return (ENOBUFS);
1550b2e60773SJohn Baldwin }
1551521eac97SJohn Baldwin 
1552521eac97SJohn Baldwin #ifdef RATELIMIT
1553521eac97SJohn Baldwin int
1554521eac97SJohn Baldwin ktls_modify_txrtlmt(struct ktls_session *tls, uint64_t max_pacing_rate)
1555521eac97SJohn Baldwin {
1556521eac97SJohn Baldwin 	union if_snd_tag_modify_params params = {
1557521eac97SJohn Baldwin 		.rate_limit.max_rate = max_pacing_rate,
1558521eac97SJohn Baldwin 		.rate_limit.flags = M_NOWAIT,
1559521eac97SJohn Baldwin 	};
1560521eac97SJohn Baldwin 	struct m_snd_tag *mst;
1561521eac97SJohn Baldwin 
1562521eac97SJohn Baldwin 	/* Can't get to the inp, but it should be locked. */
1563521eac97SJohn Baldwin 	/* INP_LOCK_ASSERT(inp); */
1564521eac97SJohn Baldwin 
1565521eac97SJohn Baldwin 	MPASS(tls->mode == TCP_TLS_MODE_IFNET);
1566521eac97SJohn Baldwin 
1567521eac97SJohn Baldwin 	if (tls->snd_tag == NULL) {
1568521eac97SJohn Baldwin 		/*
1569521eac97SJohn Baldwin 		 * Resetting send tag, ignore this change.  The
1570521eac97SJohn Baldwin 		 * pending reset may or may not see this updated rate
1571521eac97SJohn Baldwin 		 * in the tcpcb.  If it doesn't, we will just lose
1572521eac97SJohn Baldwin 		 * this rate change.
1573521eac97SJohn Baldwin 		 */
1574521eac97SJohn Baldwin 		return (0);
1575521eac97SJohn Baldwin 	}
1576521eac97SJohn Baldwin 
1577521eac97SJohn Baldwin 	MPASS(tls->snd_tag != NULL);
1578c782ea8bSJohn Baldwin 	MPASS(tls->snd_tag->sw->type == IF_SND_TAG_TYPE_TLS_RATE_LIMIT);
1579521eac97SJohn Baldwin 
1580521eac97SJohn Baldwin 	mst = tls->snd_tag;
1581c782ea8bSJohn Baldwin 	return (mst->sw->snd_tag_modify(mst, &params));
1582521eac97SJohn Baldwin }
1583521eac97SJohn Baldwin #endif
1584b2e60773SJohn Baldwin #endif
1585b2e60773SJohn Baldwin 
1586b2e60773SJohn Baldwin void
1587b2e60773SJohn Baldwin ktls_destroy(struct ktls_session *tls)
1588b2e60773SJohn Baldwin {
1589b2e60773SJohn Baldwin 
15909f03d2c0SJohn Baldwin 	if (tls->sequential_records) {
15919f03d2c0SJohn Baldwin 		struct mbuf *m, *n;
15929f03d2c0SJohn Baldwin 		int page_count;
15939f03d2c0SJohn Baldwin 
15949f03d2c0SJohn Baldwin 		STAILQ_FOREACH_SAFE(m, &tls->pending_records, m_epg_stailq, n) {
15959f03d2c0SJohn Baldwin 			page_count = m->m_epg_enc_cnt;
15969f03d2c0SJohn Baldwin 			while (page_count > 0) {
15979f03d2c0SJohn Baldwin 				KASSERT(page_count >= m->m_epg_nrdy,
15989f03d2c0SJohn Baldwin 				    ("%s: too few pages", __func__));
15999f03d2c0SJohn Baldwin 				page_count -= m->m_epg_nrdy;
16009f03d2c0SJohn Baldwin 				m = m_free(m);
16019f03d2c0SJohn Baldwin 			}
16029f03d2c0SJohn Baldwin 		}
16039f03d2c0SJohn Baldwin 	}
1604b2e60773SJohn Baldwin 	ktls_cleanup(tls);
1605b2e60773SJohn Baldwin 	uma_zfree(ktls_session_zone, tls);
1606b2e60773SJohn Baldwin }
1607b2e60773SJohn Baldwin 
1608b2e60773SJohn Baldwin void
1609b2e60773SJohn Baldwin ktls_seq(struct sockbuf *sb, struct mbuf *m)
1610b2e60773SJohn Baldwin {
1611b2e60773SJohn Baldwin 
1612b2e60773SJohn Baldwin 	for (; m != NULL; m = m->m_next) {
16136edfd179SGleb Smirnoff 		KASSERT((m->m_flags & M_EXTPG) != 0,
1614b2e60773SJohn Baldwin 		    ("ktls_seq: mapped mbuf %p", m));
1615b2e60773SJohn Baldwin 
16167b6c99d0SGleb Smirnoff 		m->m_epg_seqno = sb->sb_tls_seqno;
1617b2e60773SJohn Baldwin 		sb->sb_tls_seqno++;
1618b2e60773SJohn Baldwin 	}
1619b2e60773SJohn Baldwin }
1620b2e60773SJohn Baldwin 
1621b2e60773SJohn Baldwin /*
1622b2e60773SJohn Baldwin  * Add TLS framing (headers and trailers) to a chain of mbufs.  Each
1623b2e60773SJohn Baldwin  * mbuf in the chain must be an unmapped mbuf.  The payload of the
1624b2e60773SJohn Baldwin  * mbuf must be populated with the payload of each TLS record.
1625b2e60773SJohn Baldwin  *
1626b2e60773SJohn Baldwin  * The record_type argument specifies the TLS record type used when
1627b2e60773SJohn Baldwin  * populating the TLS header.
1628b2e60773SJohn Baldwin  *
1629b2e60773SJohn Baldwin  * The enq_count argument on return is set to the number of pages of
1630b2e60773SJohn Baldwin  * payload data for this entire chain that need to be encrypted via SW
1631b2e60773SJohn Baldwin  * encryption.  The returned value should be passed to ktls_enqueue
1632c2a8fd6fSJohn Baldwin  * when scheduling encryption of this chain of mbufs.  To handle the
1633c2a8fd6fSJohn Baldwin  * special case of empty fragments for TLS 1.0 sessions, an empty
1634c2a8fd6fSJohn Baldwin  * fragment counts as one page.
1635b2e60773SJohn Baldwin  */
1636f85e1a80SGleb Smirnoff void
1637b2e60773SJohn Baldwin ktls_frame(struct mbuf *top, struct ktls_session *tls, int *enq_cnt,
1638b2e60773SJohn Baldwin     uint8_t record_type)
1639b2e60773SJohn Baldwin {
1640b2e60773SJohn Baldwin 	struct tls_record_layer *tlshdr;
1641b2e60773SJohn Baldwin 	struct mbuf *m;
16427d29eb9aSJohn Baldwin 	uint64_t *noncep;
1643b2e60773SJohn Baldwin 	uint16_t tls_len;
1644a90b85ddSMateusz Guzik 	int maxlen __diagused;
1645b2e60773SJohn Baldwin 
1646b2e60773SJohn Baldwin 	maxlen = tls->params.max_frame_len;
1647b2e60773SJohn Baldwin 	*enq_cnt = 0;
1648b2e60773SJohn Baldwin 	for (m = top; m != NULL; m = m->m_next) {
1649b2e60773SJohn Baldwin 		/*
1650c2a8fd6fSJohn Baldwin 		 * All mbufs in the chain should be TLS records whose
1651c2a8fd6fSJohn Baldwin 		 * payload does not exceed the maximum frame length.
1652c2a8fd6fSJohn Baldwin 		 *
1653c2a8fd6fSJohn Baldwin 		 * Empty TLS records are permitted when using CBC.
1654b2e60773SJohn Baldwin 		 */
1655c2a8fd6fSJohn Baldwin 		KASSERT(m->m_len <= maxlen &&
1656c2a8fd6fSJohn Baldwin 		    (tls->params.cipher_algorithm == CRYPTO_AES_CBC ?
1657c2a8fd6fSJohn Baldwin 		    m->m_len >= 0 : m->m_len > 0),
1658f85e1a80SGleb Smirnoff 		    ("ktls_frame: m %p len %d\n", m, m->m_len));
1659c2a8fd6fSJohn Baldwin 
1660b2e60773SJohn Baldwin 		/*
1661b2e60773SJohn Baldwin 		 * TLS frames require unmapped mbufs to store session
1662b2e60773SJohn Baldwin 		 * info.
1663b2e60773SJohn Baldwin 		 */
16646edfd179SGleb Smirnoff 		KASSERT((m->m_flags & M_EXTPG) != 0,
1665b2e60773SJohn Baldwin 		    ("ktls_frame: mapped mbuf %p (top = %p)\n", m, top));
1666b2e60773SJohn Baldwin 
1667f85e1a80SGleb Smirnoff 		tls_len = m->m_len;
1668b2e60773SJohn Baldwin 
1669b2e60773SJohn Baldwin 		/* Save a reference to the session. */
16707b6c99d0SGleb Smirnoff 		m->m_epg_tls = ktls_hold(tls);
1671b2e60773SJohn Baldwin 
16727b6c99d0SGleb Smirnoff 		m->m_epg_hdrlen = tls->params.tls_hlen;
16737b6c99d0SGleb Smirnoff 		m->m_epg_trllen = tls->params.tls_tlen;
1674b2e60773SJohn Baldwin 		if (tls->params.cipher_algorithm == CRYPTO_AES_CBC) {
1675b2e60773SJohn Baldwin 			int bs, delta;
1676b2e60773SJohn Baldwin 
1677b2e60773SJohn Baldwin 			/*
1678b2e60773SJohn Baldwin 			 * AES-CBC pads messages to a multiple of the
1679b2e60773SJohn Baldwin 			 * block size.  Note that the padding is
1680b2e60773SJohn Baldwin 			 * applied after the digest and the encryption
1681b2e60773SJohn Baldwin 			 * is done on the "plaintext || mac || padding".
1682b2e60773SJohn Baldwin 			 * At least one byte of padding is always
1683b2e60773SJohn Baldwin 			 * present.
1684b2e60773SJohn Baldwin 			 *
1685b2e60773SJohn Baldwin 			 * Compute the final trailer length assuming
1686b2e60773SJohn Baldwin 			 * at most one block of padding.
168721e3c1fbSJohn Baldwin 			 * tls->params.tls_tlen is the maximum
1688b2e60773SJohn Baldwin 			 * possible trailer length (padding + digest).
1689b2e60773SJohn Baldwin 			 * delta holds the number of excess padding
1690b2e60773SJohn Baldwin 			 * bytes if the maximum were used.  Those
1691b2e60773SJohn Baldwin 			 * extra bytes are removed.
1692b2e60773SJohn Baldwin 			 */
1693b2e60773SJohn Baldwin 			bs = tls->params.tls_bs;
1694b2e60773SJohn Baldwin 			delta = (tls_len + tls->params.tls_tlen) & (bs - 1);
16957b6c99d0SGleb Smirnoff 			m->m_epg_trllen -= delta;
1696b2e60773SJohn Baldwin 		}
16977b6c99d0SGleb Smirnoff 		m->m_len += m->m_epg_hdrlen + m->m_epg_trllen;
1698b2e60773SJohn Baldwin 
1699b2e60773SJohn Baldwin 		/* Populate the TLS header. */
17000c103266SGleb Smirnoff 		tlshdr = (void *)m->m_epg_hdr;
1701b2e60773SJohn Baldwin 		tlshdr->tls_vmajor = tls->params.tls_vmajor;
17026554362cSAndrew Gallatin 
17036554362cSAndrew Gallatin 		/*
17046554362cSAndrew Gallatin 		 * TLS 1.3 masquarades as TLS 1.2 with a record type
17056554362cSAndrew Gallatin 		 * of TLS_RLTYPE_APP.
17066554362cSAndrew Gallatin 		 */
17076554362cSAndrew Gallatin 		if (tls->params.tls_vminor == TLS_MINOR_VER_THREE &&
17086554362cSAndrew Gallatin 		    tls->params.tls_vmajor == TLS_MAJOR_VER_ONE) {
17096554362cSAndrew Gallatin 			tlshdr->tls_vminor = TLS_MINOR_VER_TWO;
17106554362cSAndrew Gallatin 			tlshdr->tls_type = TLS_RLTYPE_APP;
17116554362cSAndrew Gallatin 			/* save the real record type for later */
17127b6c99d0SGleb Smirnoff 			m->m_epg_record_type = record_type;
17130c103266SGleb Smirnoff 			m->m_epg_trail[0] = record_type;
17146554362cSAndrew Gallatin 		} else {
1715b2e60773SJohn Baldwin 			tlshdr->tls_vminor = tls->params.tls_vminor;
1716b2e60773SJohn Baldwin 			tlshdr->tls_type = record_type;
17176554362cSAndrew Gallatin 		}
1718b2e60773SJohn Baldwin 		tlshdr->tls_length = htons(m->m_len - sizeof(*tlshdr));
1719b2e60773SJohn Baldwin 
1720b2e60773SJohn Baldwin 		/*
17217d29eb9aSJohn Baldwin 		 * Store nonces / explicit IVs after the end of the
17227d29eb9aSJohn Baldwin 		 * TLS header.
17237d29eb9aSJohn Baldwin 		 *
17247d29eb9aSJohn Baldwin 		 * For GCM with TLS 1.2, an 8 byte nonce is copied
17257d29eb9aSJohn Baldwin 		 * from the end of the IV.  The nonce is then
17267d29eb9aSJohn Baldwin 		 * incremented for use by the next record.
17277d29eb9aSJohn Baldwin 		 *
17287d29eb9aSJohn Baldwin 		 * For CBC, a random nonce is inserted for TLS 1.1+.
1729b2e60773SJohn Baldwin 		 */
17307d29eb9aSJohn Baldwin 		if (tls->params.cipher_algorithm == CRYPTO_AES_NIST_GCM_16 &&
17317d29eb9aSJohn Baldwin 		    tls->params.tls_vminor == TLS_MINOR_VER_TWO) {
17327d29eb9aSJohn Baldwin 			noncep = (uint64_t *)(tls->params.iv + 8);
17337d29eb9aSJohn Baldwin 			be64enc(tlshdr + 1, *noncep);
17347d29eb9aSJohn Baldwin 			(*noncep)++;
17357d29eb9aSJohn Baldwin 		} else if (tls->params.cipher_algorithm == CRYPTO_AES_CBC &&
1736b2e60773SJohn Baldwin 		    tls->params.tls_vminor >= TLS_MINOR_VER_ONE)
1737b2e60773SJohn Baldwin 			arc4rand(tlshdr + 1, AES_BLOCK_LEN, 0);
1738b2e60773SJohn Baldwin 
1739b2e60773SJohn Baldwin 		/*
1740b2e60773SJohn Baldwin 		 * When using SW encryption, mark the mbuf not ready.
1741b2e60773SJohn Baldwin 		 * It will be marked ready via sbready() after the
1742b2e60773SJohn Baldwin 		 * record has been encrypted.
1743b2e60773SJohn Baldwin 		 *
1744b2e60773SJohn Baldwin 		 * When using ifnet TLS, unencrypted TLS records are
1745b2e60773SJohn Baldwin 		 * sent down the stack to the NIC.
1746b2e60773SJohn Baldwin 		 */
17479e14430dSJohn Baldwin 		if (tls->mode == TCP_TLS_MODE_SW) {
1748b2e60773SJohn Baldwin 			m->m_flags |= M_NOTREADY;
1749c2a8fd6fSJohn Baldwin 			if (__predict_false(tls_len == 0)) {
1750c2a8fd6fSJohn Baldwin 				/* TLS 1.0 empty fragment. */
1751d16cb228SJohn Baldwin 				m->m_epg_nrdy = 1;
1752c2a8fd6fSJohn Baldwin 			} else
1753d16cb228SJohn Baldwin 				m->m_epg_nrdy = m->m_epg_npgs;
1754d16cb228SJohn Baldwin 			*enq_cnt += m->m_epg_nrdy;
1755b2e60773SJohn Baldwin 		}
1756b2e60773SJohn Baldwin 	}
1757b2e60773SJohn Baldwin }
1758b2e60773SJohn Baldwin 
1759b2e60773SJohn Baldwin void
17603c0e5685SJohn Baldwin ktls_check_rx(struct sockbuf *sb)
17613c0e5685SJohn Baldwin {
17623c0e5685SJohn Baldwin 	struct tls_record_layer hdr;
17633c0e5685SJohn Baldwin 	struct ktls_wq *wq;
17643c0e5685SJohn Baldwin 	struct socket *so;
17653c0e5685SJohn Baldwin 	bool running;
17663c0e5685SJohn Baldwin 
17673c0e5685SJohn Baldwin 	SOCKBUF_LOCK_ASSERT(sb);
17683c0e5685SJohn Baldwin 	KASSERT(sb->sb_flags & SB_TLS_RX, ("%s: sockbuf %p isn't TLS RX",
17693c0e5685SJohn Baldwin 	    __func__, sb));
17703c0e5685SJohn Baldwin 	so = __containerof(sb, struct socket, so_rcv);
17713c0e5685SJohn Baldwin 
17723c0e5685SJohn Baldwin 	if (sb->sb_flags & SB_TLS_RX_RUNNING)
17733c0e5685SJohn Baldwin 		return;
17743c0e5685SJohn Baldwin 
17753c0e5685SJohn Baldwin 	/* Is there enough queued for a TLS header? */
17763c0e5685SJohn Baldwin 	if (sb->sb_tlscc < sizeof(hdr)) {
17773c0e5685SJohn Baldwin 		if ((sb->sb_state & SBS_CANTRCVMORE) != 0 && sb->sb_tlscc != 0)
17783c0e5685SJohn Baldwin 			so->so_error = EMSGSIZE;
17793c0e5685SJohn Baldwin 		return;
17803c0e5685SJohn Baldwin 	}
17813c0e5685SJohn Baldwin 
17823c0e5685SJohn Baldwin 	m_copydata(sb->sb_mtls, 0, sizeof(hdr), (void *)&hdr);
17833c0e5685SJohn Baldwin 
17843c0e5685SJohn Baldwin 	/* Is the entire record queued? */
17853c0e5685SJohn Baldwin 	if (sb->sb_tlscc < sizeof(hdr) + ntohs(hdr.tls_length)) {
17863c0e5685SJohn Baldwin 		if ((sb->sb_state & SBS_CANTRCVMORE) != 0)
17873c0e5685SJohn Baldwin 			so->so_error = EMSGSIZE;
17883c0e5685SJohn Baldwin 		return;
17893c0e5685SJohn Baldwin 	}
17903c0e5685SJohn Baldwin 
17913c0e5685SJohn Baldwin 	sb->sb_flags |= SB_TLS_RX_RUNNING;
17923c0e5685SJohn Baldwin 
17933c0e5685SJohn Baldwin 	soref(so);
17943c0e5685SJohn Baldwin 	wq = &ktls_wq[so->so_rcv.sb_tls_info->wq_index];
17953c0e5685SJohn Baldwin 	mtx_lock(&wq->mtx);
17963c0e5685SJohn Baldwin 	STAILQ_INSERT_TAIL(&wq->so_head, so, so_ktls_rx_list);
17973c0e5685SJohn Baldwin 	running = wq->running;
17983c0e5685SJohn Baldwin 	mtx_unlock(&wq->mtx);
17993c0e5685SJohn Baldwin 	if (!running)
18003c0e5685SJohn Baldwin 		wakeup(wq);
18013c0e5685SJohn Baldwin 	counter_u64_add(ktls_cnt_rx_queued, 1);
18023c0e5685SJohn Baldwin }
18033c0e5685SJohn Baldwin 
18043c0e5685SJohn Baldwin static struct mbuf *
18053c0e5685SJohn Baldwin ktls_detach_record(struct sockbuf *sb, int len)
18063c0e5685SJohn Baldwin {
18073c0e5685SJohn Baldwin 	struct mbuf *m, *n, *top;
18083c0e5685SJohn Baldwin 	int remain;
18093c0e5685SJohn Baldwin 
18103c0e5685SJohn Baldwin 	SOCKBUF_LOCK_ASSERT(sb);
18113c0e5685SJohn Baldwin 	MPASS(len <= sb->sb_tlscc);
18123c0e5685SJohn Baldwin 
18133c0e5685SJohn Baldwin 	/*
18143c0e5685SJohn Baldwin 	 * If TLS chain is the exact size of the record,
18153c0e5685SJohn Baldwin 	 * just grab the whole record.
18163c0e5685SJohn Baldwin 	 */
18173c0e5685SJohn Baldwin 	top = sb->sb_mtls;
18183c0e5685SJohn Baldwin 	if (sb->sb_tlscc == len) {
18193c0e5685SJohn Baldwin 		sb->sb_mtls = NULL;
18203c0e5685SJohn Baldwin 		sb->sb_mtlstail = NULL;
18213c0e5685SJohn Baldwin 		goto out;
18223c0e5685SJohn Baldwin 	}
18233c0e5685SJohn Baldwin 
18243c0e5685SJohn Baldwin 	/*
18253c0e5685SJohn Baldwin 	 * While it would be nice to use m_split() here, we need
18263c0e5685SJohn Baldwin 	 * to know exactly what m_split() allocates to update the
18273c0e5685SJohn Baldwin 	 * accounting, so do it inline instead.
18283c0e5685SJohn Baldwin 	 */
18293c0e5685SJohn Baldwin 	remain = len;
18303c0e5685SJohn Baldwin 	for (m = top; remain > m->m_len; m = m->m_next)
18313c0e5685SJohn Baldwin 		remain -= m->m_len;
18323c0e5685SJohn Baldwin 
18333c0e5685SJohn Baldwin 	/* Easy case: don't have to split 'm'. */
18343c0e5685SJohn Baldwin 	if (remain == m->m_len) {
18353c0e5685SJohn Baldwin 		sb->sb_mtls = m->m_next;
18363c0e5685SJohn Baldwin 		if (sb->sb_mtls == NULL)
18373c0e5685SJohn Baldwin 			sb->sb_mtlstail = NULL;
18383c0e5685SJohn Baldwin 		m->m_next = NULL;
18393c0e5685SJohn Baldwin 		goto out;
18403c0e5685SJohn Baldwin 	}
18413c0e5685SJohn Baldwin 
18423c0e5685SJohn Baldwin 	/*
18433c0e5685SJohn Baldwin 	 * Need to allocate an mbuf to hold the remainder of 'm'.  Try
18443c0e5685SJohn Baldwin 	 * with M_NOWAIT first.
18453c0e5685SJohn Baldwin 	 */
18463c0e5685SJohn Baldwin 	n = m_get(M_NOWAIT, MT_DATA);
18473c0e5685SJohn Baldwin 	if (n == NULL) {
18483c0e5685SJohn Baldwin 		/*
18493c0e5685SJohn Baldwin 		 * Use M_WAITOK with socket buffer unlocked.  If
18503c0e5685SJohn Baldwin 		 * 'sb_mtls' changes while the lock is dropped, return
18513c0e5685SJohn Baldwin 		 * NULL to force the caller to retry.
18523c0e5685SJohn Baldwin 		 */
18533c0e5685SJohn Baldwin 		SOCKBUF_UNLOCK(sb);
18543c0e5685SJohn Baldwin 
18553c0e5685SJohn Baldwin 		n = m_get(M_WAITOK, MT_DATA);
18563c0e5685SJohn Baldwin 
18573c0e5685SJohn Baldwin 		SOCKBUF_LOCK(sb);
18583c0e5685SJohn Baldwin 		if (sb->sb_mtls != top) {
18593c0e5685SJohn Baldwin 			m_free(n);
18603c0e5685SJohn Baldwin 			return (NULL);
18613c0e5685SJohn Baldwin 		}
18623c0e5685SJohn Baldwin 	}
18633c0e5685SJohn Baldwin 	n->m_flags |= M_NOTREADY;
18643c0e5685SJohn Baldwin 
18653c0e5685SJohn Baldwin 	/* Store remainder in 'n'. */
18663c0e5685SJohn Baldwin 	n->m_len = m->m_len - remain;
18673c0e5685SJohn Baldwin 	if (m->m_flags & M_EXT) {
18683c0e5685SJohn Baldwin 		n->m_data = m->m_data + remain;
18693c0e5685SJohn Baldwin 		mb_dupcl(n, m);
18703c0e5685SJohn Baldwin 	} else {
18713c0e5685SJohn Baldwin 		bcopy(mtod(m, caddr_t) + remain, mtod(n, caddr_t), n->m_len);
18723c0e5685SJohn Baldwin 	}
18733c0e5685SJohn Baldwin 
18743c0e5685SJohn Baldwin 	/* Trim 'm' and update accounting. */
18753c0e5685SJohn Baldwin 	m->m_len -= n->m_len;
18763c0e5685SJohn Baldwin 	sb->sb_tlscc -= n->m_len;
18773c0e5685SJohn Baldwin 	sb->sb_ccc -= n->m_len;
18783c0e5685SJohn Baldwin 
18793c0e5685SJohn Baldwin 	/* Account for 'n'. */
18803c0e5685SJohn Baldwin 	sballoc_ktls_rx(sb, n);
18813c0e5685SJohn Baldwin 
18823c0e5685SJohn Baldwin 	/* Insert 'n' into the TLS chain. */
18833c0e5685SJohn Baldwin 	sb->sb_mtls = n;
18843c0e5685SJohn Baldwin 	n->m_next = m->m_next;
18853c0e5685SJohn Baldwin 	if (sb->sb_mtlstail == m)
18863c0e5685SJohn Baldwin 		sb->sb_mtlstail = n;
18873c0e5685SJohn Baldwin 
18883c0e5685SJohn Baldwin 	/* Detach the record from the TLS chain. */
18893c0e5685SJohn Baldwin 	m->m_next = NULL;
18903c0e5685SJohn Baldwin 
18913c0e5685SJohn Baldwin out:
18923c0e5685SJohn Baldwin 	MPASS(m_length(top, NULL) == len);
18933c0e5685SJohn Baldwin 	for (m = top; m != NULL; m = m->m_next)
18943c0e5685SJohn Baldwin 		sbfree_ktls_rx(sb, m);
18953c0e5685SJohn Baldwin 	sb->sb_tlsdcc = len;
18963c0e5685SJohn Baldwin 	sb->sb_ccc += len;
18973c0e5685SJohn Baldwin 	SBCHECK(sb);
18983c0e5685SJohn Baldwin 	return (top);
18993c0e5685SJohn Baldwin }
19003c0e5685SJohn Baldwin 
1901*05a1d0f5SJohn Baldwin /*
1902*05a1d0f5SJohn Baldwin  * Determine the length of the trailing zero padding and find the real
1903*05a1d0f5SJohn Baldwin  * record type in the byte before the padding.
1904*05a1d0f5SJohn Baldwin  *
1905*05a1d0f5SJohn Baldwin  * Walking the mbuf chain backwards is clumsy, so another option would
1906*05a1d0f5SJohn Baldwin  * be to scan forwards remembering the last non-zero byte before the
1907*05a1d0f5SJohn Baldwin  * trailer.  However, it would be expensive to scan the entire record.
1908*05a1d0f5SJohn Baldwin  * Instead, find the last non-zero byte of each mbuf in the chain
1909*05a1d0f5SJohn Baldwin  * keeping track of the relative offset of that nonzero byte.
1910*05a1d0f5SJohn Baldwin  *
1911*05a1d0f5SJohn Baldwin  * trail_len is the size of the MAC/tag on input and is set to the
1912*05a1d0f5SJohn Baldwin  * size of the full trailer including padding and the record type on
1913*05a1d0f5SJohn Baldwin  * return.
1914*05a1d0f5SJohn Baldwin  */
1915*05a1d0f5SJohn Baldwin static int
1916*05a1d0f5SJohn Baldwin tls13_find_record_type(struct ktls_session *tls, struct mbuf *m, int tls_len,
1917*05a1d0f5SJohn Baldwin     int *trailer_len, uint8_t *record_typep)
1918*05a1d0f5SJohn Baldwin {
1919*05a1d0f5SJohn Baldwin 	char *cp;
1920*05a1d0f5SJohn Baldwin 	u_int digest_start, last_offset, m_len, offset;
1921*05a1d0f5SJohn Baldwin 	uint8_t record_type;
1922*05a1d0f5SJohn Baldwin 
1923*05a1d0f5SJohn Baldwin 	digest_start = tls_len - *trailer_len;
1924*05a1d0f5SJohn Baldwin 	last_offset = 0;
1925*05a1d0f5SJohn Baldwin 	offset = 0;
1926*05a1d0f5SJohn Baldwin 	for (; m != NULL && offset < digest_start;
1927*05a1d0f5SJohn Baldwin 	     offset += m->m_len, m = m->m_next) {
1928*05a1d0f5SJohn Baldwin 		/* Don't look for padding in the tag. */
1929*05a1d0f5SJohn Baldwin 		m_len = min(digest_start - offset, m->m_len);
1930*05a1d0f5SJohn Baldwin 		cp = mtod(m, char *);
1931*05a1d0f5SJohn Baldwin 
1932*05a1d0f5SJohn Baldwin 		/* Find last non-zero byte in this mbuf. */
1933*05a1d0f5SJohn Baldwin 		while (m_len > 0 && cp[m_len - 1] == 0)
1934*05a1d0f5SJohn Baldwin 			m_len--;
1935*05a1d0f5SJohn Baldwin 		if (m_len > 0) {
1936*05a1d0f5SJohn Baldwin 			record_type = cp[m_len - 1];
1937*05a1d0f5SJohn Baldwin 			last_offset = offset + m_len;
1938*05a1d0f5SJohn Baldwin 		}
1939*05a1d0f5SJohn Baldwin 	}
1940*05a1d0f5SJohn Baldwin 	if (last_offset < tls->params.tls_hlen)
1941*05a1d0f5SJohn Baldwin 		return (EBADMSG);
1942*05a1d0f5SJohn Baldwin 
1943*05a1d0f5SJohn Baldwin 	*record_typep = record_type;
1944*05a1d0f5SJohn Baldwin 	*trailer_len = tls_len - last_offset + 1;
1945*05a1d0f5SJohn Baldwin 	return (0);
1946*05a1d0f5SJohn Baldwin }
1947*05a1d0f5SJohn Baldwin 
19483c0e5685SJohn Baldwin static void
19493c0e5685SJohn Baldwin ktls_decrypt(struct socket *so)
19503c0e5685SJohn Baldwin {
19513c0e5685SJohn Baldwin 	char tls_header[MBUF_PEXT_HDR_LEN];
19523c0e5685SJohn Baldwin 	struct ktls_session *tls;
19533c0e5685SJohn Baldwin 	struct sockbuf *sb;
19543c0e5685SJohn Baldwin 	struct tls_record_layer *hdr;
19553c0e5685SJohn Baldwin 	struct tls_get_record tgr;
19563c0e5685SJohn Baldwin 	struct mbuf *control, *data, *m;
19573c0e5685SJohn Baldwin 	uint64_t seqno;
19583c0e5685SJohn Baldwin 	int error, remain, tls_len, trail_len;
1959*05a1d0f5SJohn Baldwin 	bool tls13;
1960*05a1d0f5SJohn Baldwin 	uint8_t vminor, record_type;
19613c0e5685SJohn Baldwin 
19623c0e5685SJohn Baldwin 	hdr = (struct tls_record_layer *)tls_header;
19633c0e5685SJohn Baldwin 	sb = &so->so_rcv;
19643c0e5685SJohn Baldwin 	SOCKBUF_LOCK(sb);
19653c0e5685SJohn Baldwin 	KASSERT(sb->sb_flags & SB_TLS_RX_RUNNING,
19663c0e5685SJohn Baldwin 	    ("%s: socket %p not running", __func__, so));
19673c0e5685SJohn Baldwin 
19683c0e5685SJohn Baldwin 	tls = sb->sb_tls_info;
19693c0e5685SJohn Baldwin 	MPASS(tls != NULL);
19703c0e5685SJohn Baldwin 
1971*05a1d0f5SJohn Baldwin 	tls13 = (tls->params.tls_vminor == TLS_MINOR_VER_THREE);
1972*05a1d0f5SJohn Baldwin 	if (tls13)
1973*05a1d0f5SJohn Baldwin 		vminor = TLS_MINOR_VER_TWO;
1974*05a1d0f5SJohn Baldwin 	else
1975*05a1d0f5SJohn Baldwin 		vminor = tls->params.tls_vminor;
19763c0e5685SJohn Baldwin 	for (;;) {
19773c0e5685SJohn Baldwin 		/* Is there enough queued for a TLS header? */
19783c0e5685SJohn Baldwin 		if (sb->sb_tlscc < tls->params.tls_hlen)
19793c0e5685SJohn Baldwin 			break;
19803c0e5685SJohn Baldwin 
19813c0e5685SJohn Baldwin 		m_copydata(sb->sb_mtls, 0, tls->params.tls_hlen, tls_header);
19823c0e5685SJohn Baldwin 		tls_len = sizeof(*hdr) + ntohs(hdr->tls_length);
19833c0e5685SJohn Baldwin 
19843c0e5685SJohn Baldwin 		if (hdr->tls_vmajor != tls->params.tls_vmajor ||
1985*05a1d0f5SJohn Baldwin 		    hdr->tls_vminor != vminor)
1986*05a1d0f5SJohn Baldwin 			error = EINVAL;
1987*05a1d0f5SJohn Baldwin 		else if (tls13 && hdr->tls_type != TLS_RLTYPE_APP)
19883c0e5685SJohn Baldwin 			error = EINVAL;
19893c0e5685SJohn Baldwin 		else if (tls_len < tls->params.tls_hlen || tls_len >
19903c0e5685SJohn Baldwin 		    tls->params.tls_hlen + TLS_MAX_MSG_SIZE_V10_2 +
19913c0e5685SJohn Baldwin 		    tls->params.tls_tlen)
19923c0e5685SJohn Baldwin 			error = EMSGSIZE;
19933c0e5685SJohn Baldwin 		else
19943c0e5685SJohn Baldwin 			error = 0;
19953c0e5685SJohn Baldwin 		if (__predict_false(error != 0)) {
19963c0e5685SJohn Baldwin 			/*
19973c0e5685SJohn Baldwin 			 * We have a corrupted record and are likely
19983c0e5685SJohn Baldwin 			 * out of sync.  The connection isn't
19993c0e5685SJohn Baldwin 			 * recoverable at this point, so abort it.
20003c0e5685SJohn Baldwin 			 */
20013c0e5685SJohn Baldwin 			SOCKBUF_UNLOCK(sb);
20023c0e5685SJohn Baldwin 			counter_u64_add(ktls_offload_corrupted_records, 1);
20033c0e5685SJohn Baldwin 
20043c0e5685SJohn Baldwin 			CURVNET_SET(so->so_vnet);
20053c0e5685SJohn Baldwin 			so->so_proto->pr_usrreqs->pru_abort(so);
20063c0e5685SJohn Baldwin 			so->so_error = error;
20073c0e5685SJohn Baldwin 			CURVNET_RESTORE();
20083c0e5685SJohn Baldwin 			goto deref;
20093c0e5685SJohn Baldwin 		}
20103c0e5685SJohn Baldwin 
20113c0e5685SJohn Baldwin 		/* Is the entire record queued? */
20123c0e5685SJohn Baldwin 		if (sb->sb_tlscc < tls_len)
20133c0e5685SJohn Baldwin 			break;
20143c0e5685SJohn Baldwin 
20153c0e5685SJohn Baldwin 		/*
20163c0e5685SJohn Baldwin 		 * Split out the portion of the mbuf chain containing
20173c0e5685SJohn Baldwin 		 * this TLS record.
20183c0e5685SJohn Baldwin 		 */
20193c0e5685SJohn Baldwin 		data = ktls_detach_record(sb, tls_len);
20203c0e5685SJohn Baldwin 		if (data == NULL)
20213c0e5685SJohn Baldwin 			continue;
20223c0e5685SJohn Baldwin 		MPASS(sb->sb_tlsdcc == tls_len);
20233c0e5685SJohn Baldwin 
20243c0e5685SJohn Baldwin 		seqno = sb->sb_tls_seqno;
20253c0e5685SJohn Baldwin 		sb->sb_tls_seqno++;
20263c0e5685SJohn Baldwin 		SBCHECK(sb);
20273c0e5685SJohn Baldwin 		SOCKBUF_UNLOCK(sb);
20283c0e5685SJohn Baldwin 
20293c0e5685SJohn Baldwin 		error = tls->sw_decrypt(tls, hdr, data, seqno, &trail_len);
2030*05a1d0f5SJohn Baldwin 		if (error == 0) {
2031*05a1d0f5SJohn Baldwin 			if (tls13)
2032*05a1d0f5SJohn Baldwin 				error = tls13_find_record_type(tls, data,
2033*05a1d0f5SJohn Baldwin 				    tls_len, &trail_len, &record_type);
2034*05a1d0f5SJohn Baldwin 			else
2035*05a1d0f5SJohn Baldwin 				record_type = hdr->tls_type;
2036*05a1d0f5SJohn Baldwin 		}
20373c0e5685SJohn Baldwin 		if (error) {
20383c0e5685SJohn Baldwin 			counter_u64_add(ktls_offload_failed_crypto, 1);
20393c0e5685SJohn Baldwin 
20403c0e5685SJohn Baldwin 			SOCKBUF_LOCK(sb);
20413c0e5685SJohn Baldwin 			if (sb->sb_tlsdcc == 0) {
20423c0e5685SJohn Baldwin 				/*
20433c0e5685SJohn Baldwin 				 * sbcut/drop/flush discarded these
20443c0e5685SJohn Baldwin 				 * mbufs.
20453c0e5685SJohn Baldwin 				 */
20463c0e5685SJohn Baldwin 				m_freem(data);
20473c0e5685SJohn Baldwin 				break;
20483c0e5685SJohn Baldwin 			}
20493c0e5685SJohn Baldwin 
20503c0e5685SJohn Baldwin 			/*
20513c0e5685SJohn Baldwin 			 * Drop this TLS record's data, but keep
20523c0e5685SJohn Baldwin 			 * decrypting subsequent records.
20533c0e5685SJohn Baldwin 			 */
20543c0e5685SJohn Baldwin 			sb->sb_ccc -= tls_len;
20553c0e5685SJohn Baldwin 			sb->sb_tlsdcc = 0;
20563c0e5685SJohn Baldwin 
20573c0e5685SJohn Baldwin 			CURVNET_SET(so->so_vnet);
20583c0e5685SJohn Baldwin 			so->so_error = EBADMSG;
20593c0e5685SJohn Baldwin 			sorwakeup_locked(so);
20603c0e5685SJohn Baldwin 			CURVNET_RESTORE();
20613c0e5685SJohn Baldwin 
20623c0e5685SJohn Baldwin 			m_freem(data);
20633c0e5685SJohn Baldwin 
20643c0e5685SJohn Baldwin 			SOCKBUF_LOCK(sb);
20653c0e5685SJohn Baldwin 			continue;
20663c0e5685SJohn Baldwin 		}
20673c0e5685SJohn Baldwin 
20683c0e5685SJohn Baldwin 		/* Allocate the control mbuf. */
2069*05a1d0f5SJohn Baldwin 		tgr.tls_type = record_type;
20703c0e5685SJohn Baldwin 		tgr.tls_vmajor = hdr->tls_vmajor;
20713c0e5685SJohn Baldwin 		tgr.tls_vminor = hdr->tls_vminor;
20723c0e5685SJohn Baldwin 		tgr.tls_length = htobe16(tls_len - tls->params.tls_hlen -
20733c0e5685SJohn Baldwin 		    trail_len);
20743c0e5685SJohn Baldwin 		control = sbcreatecontrol_how(&tgr, sizeof(tgr),
20753c0e5685SJohn Baldwin 		    TLS_GET_RECORD, IPPROTO_TCP, M_WAITOK);
20763c0e5685SJohn Baldwin 
20773c0e5685SJohn Baldwin 		SOCKBUF_LOCK(sb);
20783c0e5685SJohn Baldwin 		if (sb->sb_tlsdcc == 0) {
20793c0e5685SJohn Baldwin 			/* sbcut/drop/flush discarded these mbufs. */
20803c0e5685SJohn Baldwin 			MPASS(sb->sb_tlscc == 0);
20813c0e5685SJohn Baldwin 			m_freem(data);
20823c0e5685SJohn Baldwin 			m_freem(control);
20833c0e5685SJohn Baldwin 			break;
20843c0e5685SJohn Baldwin 		}
20853c0e5685SJohn Baldwin 
20863c0e5685SJohn Baldwin 		/*
20873c0e5685SJohn Baldwin 		 * Clear the 'dcc' accounting in preparation for
20883c0e5685SJohn Baldwin 		 * adding the decrypted record.
20893c0e5685SJohn Baldwin 		 */
20903c0e5685SJohn Baldwin 		sb->sb_ccc -= tls_len;
20913c0e5685SJohn Baldwin 		sb->sb_tlsdcc = 0;
20923c0e5685SJohn Baldwin 		SBCHECK(sb);
20933c0e5685SJohn Baldwin 
20943c0e5685SJohn Baldwin 		/* If there is no payload, drop all of the data. */
20953c0e5685SJohn Baldwin 		if (tgr.tls_length == htobe16(0)) {
20963c0e5685SJohn Baldwin 			m_freem(data);
20973c0e5685SJohn Baldwin 			data = NULL;
20983c0e5685SJohn Baldwin 		} else {
20993c0e5685SJohn Baldwin 			/* Trim header. */
21003c0e5685SJohn Baldwin 			remain = tls->params.tls_hlen;
21013c0e5685SJohn Baldwin 			while (remain > 0) {
21023c0e5685SJohn Baldwin 				if (data->m_len > remain) {
21033c0e5685SJohn Baldwin 					data->m_data += remain;
21043c0e5685SJohn Baldwin 					data->m_len -= remain;
21053c0e5685SJohn Baldwin 					break;
21063c0e5685SJohn Baldwin 				}
21073c0e5685SJohn Baldwin 				remain -= data->m_len;
21083c0e5685SJohn Baldwin 				data = m_free(data);
21093c0e5685SJohn Baldwin 			}
21103c0e5685SJohn Baldwin 
21113c0e5685SJohn Baldwin 			/* Trim trailer and clear M_NOTREADY. */
21123c0e5685SJohn Baldwin 			remain = be16toh(tgr.tls_length);
21133c0e5685SJohn Baldwin 			m = data;
21143c0e5685SJohn Baldwin 			for (m = data; remain > m->m_len; m = m->m_next) {
21153c0e5685SJohn Baldwin 				m->m_flags &= ~M_NOTREADY;
21163c0e5685SJohn Baldwin 				remain -= m->m_len;
21173c0e5685SJohn Baldwin 			}
21183c0e5685SJohn Baldwin 			m->m_len = remain;
21193c0e5685SJohn Baldwin 			m_freem(m->m_next);
21203c0e5685SJohn Baldwin 			m->m_next = NULL;
21213c0e5685SJohn Baldwin 			m->m_flags &= ~M_NOTREADY;
21223c0e5685SJohn Baldwin 
21233c0e5685SJohn Baldwin 			/* Set EOR on the final mbuf. */
21243c0e5685SJohn Baldwin 			m->m_flags |= M_EOR;
21253c0e5685SJohn Baldwin 		}
21263c0e5685SJohn Baldwin 
21273c0e5685SJohn Baldwin 		sbappendcontrol_locked(sb, data, control, 0);
21283c0e5685SJohn Baldwin 	}
21293c0e5685SJohn Baldwin 
21303c0e5685SJohn Baldwin 	sb->sb_flags &= ~SB_TLS_RX_RUNNING;
21313c0e5685SJohn Baldwin 
21323c0e5685SJohn Baldwin 	if ((sb->sb_state & SBS_CANTRCVMORE) != 0 && sb->sb_tlscc > 0)
21333c0e5685SJohn Baldwin 		so->so_error = EMSGSIZE;
21343c0e5685SJohn Baldwin 
21353c0e5685SJohn Baldwin 	sorwakeup_locked(so);
21363c0e5685SJohn Baldwin 
21373c0e5685SJohn Baldwin deref:
21383c0e5685SJohn Baldwin 	SOCKBUF_UNLOCK_ASSERT(sb);
21393c0e5685SJohn Baldwin 
21403c0e5685SJohn Baldwin 	CURVNET_SET(so->so_vnet);
21413c0e5685SJohn Baldwin 	sorele(so);
21423c0e5685SJohn Baldwin 	CURVNET_RESTORE();
21433c0e5685SJohn Baldwin }
21443c0e5685SJohn Baldwin 
21453c0e5685SJohn Baldwin void
2146d90fe9d0SGleb Smirnoff ktls_enqueue_to_free(struct mbuf *m)
2147b2e60773SJohn Baldwin {
2148b2e60773SJohn Baldwin 	struct ktls_wq *wq;
2149b2e60773SJohn Baldwin 	bool running;
2150b2e60773SJohn Baldwin 
2151b2e60773SJohn Baldwin 	/* Mark it for freeing. */
21527b6c99d0SGleb Smirnoff 	m->m_epg_flags |= EPG_FLAG_2FREE;
21537b6c99d0SGleb Smirnoff 	wq = &ktls_wq[m->m_epg_tls->wq_index];
2154b2e60773SJohn Baldwin 	mtx_lock(&wq->mtx);
21553c0e5685SJohn Baldwin 	STAILQ_INSERT_TAIL(&wq->m_head, m, m_epg_stailq);
2156b2e60773SJohn Baldwin 	running = wq->running;
2157b2e60773SJohn Baldwin 	mtx_unlock(&wq->mtx);
2158b2e60773SJohn Baldwin 	if (!running)
2159b2e60773SJohn Baldwin 		wakeup(wq);
2160b2e60773SJohn Baldwin }
2161b2e60773SJohn Baldwin 
216249f6925cSMark Johnston static void *
216349f6925cSMark Johnston ktls_buffer_alloc(struct ktls_wq *wq, struct mbuf *m)
216449f6925cSMark Johnston {
216549f6925cSMark Johnston 	void *buf;
216698215005SAndrew Gallatin 	int domain, running;
216749f6925cSMark Johnston 
216849f6925cSMark Johnston 	if (m->m_epg_npgs <= 2)
216949f6925cSMark Johnston 		return (NULL);
217049f6925cSMark Johnston 	if (ktls_buffer_zone == NULL)
217149f6925cSMark Johnston 		return (NULL);
217249f6925cSMark Johnston 	if ((u_int)(ticks - wq->lastallocfail) < hz) {
217349f6925cSMark Johnston 		/*
217449f6925cSMark Johnston 		 * Rate-limit allocation attempts after a failure.
217549f6925cSMark Johnston 		 * ktls_buffer_import() will acquire a per-domain mutex to check
217649f6925cSMark Johnston 		 * the free page queues and may fail consistently if memory is
217749f6925cSMark Johnston 		 * fragmented.
217849f6925cSMark Johnston 		 */
217949f6925cSMark Johnston 		return (NULL);
218049f6925cSMark Johnston 	}
218149f6925cSMark Johnston 	buf = uma_zalloc(ktls_buffer_zone, M_NOWAIT | M_NORECLAIM);
218298215005SAndrew Gallatin 	if (buf == NULL) {
218398215005SAndrew Gallatin 		domain = PCPU_GET(domain);
218449f6925cSMark Johnston 		wq->lastallocfail = ticks;
218598215005SAndrew Gallatin 
218698215005SAndrew Gallatin 		/*
218798215005SAndrew Gallatin 		 * Note that this check is "racy", but the races are
218898215005SAndrew Gallatin 		 * harmless, and are either a spurious wakeup if
218998215005SAndrew Gallatin 		 * multiple threads fail allocations before the alloc
219098215005SAndrew Gallatin 		 * thread wakes, or waiting an extra second in case we
219198215005SAndrew Gallatin 		 * see an old value of running == true.
219298215005SAndrew Gallatin 		 */
219398215005SAndrew Gallatin 		if (!VM_DOMAIN_EMPTY(domain)) {
219498215005SAndrew Gallatin 			running = atomic_load_int(&ktls_domains[domain].alloc_td.running);
219598215005SAndrew Gallatin 			if (!running)
219698215005SAndrew Gallatin 				wakeup(&ktls_domains[domain].alloc_td);
219798215005SAndrew Gallatin 		}
219898215005SAndrew Gallatin 	}
219949f6925cSMark Johnston 	return (buf);
220049f6925cSMark Johnston }
220149f6925cSMark Johnston 
2202470e851cSJohn Baldwin static int
2203470e851cSJohn Baldwin ktls_encrypt_record(struct ktls_wq *wq, struct mbuf *m,
2204470e851cSJohn Baldwin     struct ktls_session *tls, struct ktls_ocf_encrypt_state *state)
2205470e851cSJohn Baldwin {
2206470e851cSJohn Baldwin 	vm_page_t pg;
2207470e851cSJohn Baldwin 	int error, i, len, off;
2208470e851cSJohn Baldwin 
2209470e851cSJohn Baldwin 	KASSERT((m->m_flags & (M_EXTPG | M_NOTREADY)) == (M_EXTPG | M_NOTREADY),
2210470e851cSJohn Baldwin 	    ("%p not unready & nomap mbuf\n", m));
2211470e851cSJohn Baldwin 	KASSERT(ptoa(m->m_epg_npgs) <= ktls_maxlen,
2212470e851cSJohn Baldwin 	    ("page count %d larger than maximum frame length %d", m->m_epg_npgs,
2213470e851cSJohn Baldwin 	    ktls_maxlen));
2214470e851cSJohn Baldwin 
2215470e851cSJohn Baldwin 	/* Anonymous mbufs are encrypted in place. */
2216470e851cSJohn Baldwin 	if ((m->m_epg_flags & EPG_FLAG_ANON) != 0)
2217470e851cSJohn Baldwin 		return (tls->sw_encrypt(state, tls, m, NULL, 0));
2218470e851cSJohn Baldwin 
2219470e851cSJohn Baldwin 	/*
2220470e851cSJohn Baldwin 	 * For file-backed mbufs (from sendfile), anonymous wired
2221470e851cSJohn Baldwin 	 * pages are allocated and used as the encryption destination.
2222470e851cSJohn Baldwin 	 */
2223470e851cSJohn Baldwin 	if ((state->cbuf = ktls_buffer_alloc(wq, m)) != NULL) {
2224470e851cSJohn Baldwin 		len = ptoa(m->m_epg_npgs - 1) + m->m_epg_last_len -
2225470e851cSJohn Baldwin 		    m->m_epg_1st_off;
2226470e851cSJohn Baldwin 		state->dst_iov[0].iov_base = (char *)state->cbuf +
2227470e851cSJohn Baldwin 		    m->m_epg_1st_off;
2228470e851cSJohn Baldwin 		state->dst_iov[0].iov_len = len;
2229470e851cSJohn Baldwin 		state->parray[0] = DMAP_TO_PHYS((vm_offset_t)state->cbuf);
2230470e851cSJohn Baldwin 		i = 1;
2231470e851cSJohn Baldwin 	} else {
2232470e851cSJohn Baldwin 		off = m->m_epg_1st_off;
2233470e851cSJohn Baldwin 		for (i = 0; i < m->m_epg_npgs; i++, off = 0) {
2234a4667e09SMark Johnston 			pg = vm_page_alloc_noobj(VM_ALLOC_NODUMP |
2235a4667e09SMark Johnston 			    VM_ALLOC_WIRED | VM_ALLOC_WAITOK);
2236470e851cSJohn Baldwin 			len = m_epg_pagelen(m, i, off);
2237470e851cSJohn Baldwin 			state->parray[i] = VM_PAGE_TO_PHYS(pg);
2238470e851cSJohn Baldwin 			state->dst_iov[i].iov_base =
2239470e851cSJohn Baldwin 			    (char *)PHYS_TO_DMAP(state->parray[i]) + off;
2240470e851cSJohn Baldwin 			state->dst_iov[i].iov_len = len;
2241470e851cSJohn Baldwin 		}
2242470e851cSJohn Baldwin 	}
2243470e851cSJohn Baldwin 	KASSERT(i + 1 <= nitems(state->dst_iov), ("dst_iov is too small"));
2244470e851cSJohn Baldwin 	state->dst_iov[i].iov_base = m->m_epg_trail;
2245470e851cSJohn Baldwin 	state->dst_iov[i].iov_len = m->m_epg_trllen;
2246470e851cSJohn Baldwin 
2247470e851cSJohn Baldwin 	error = tls->sw_encrypt(state, tls, m, state->dst_iov, i + 1);
2248470e851cSJohn Baldwin 
2249470e851cSJohn Baldwin 	if (__predict_false(error != 0)) {
2250470e851cSJohn Baldwin 		/* Free the anonymous pages. */
2251470e851cSJohn Baldwin 		if (state->cbuf != NULL)
2252470e851cSJohn Baldwin 			uma_zfree(ktls_buffer_zone, state->cbuf);
2253470e851cSJohn Baldwin 		else {
2254470e851cSJohn Baldwin 			for (i = 0; i < m->m_epg_npgs; i++) {
2255470e851cSJohn Baldwin 				pg = PHYS_TO_VM_PAGE(state->parray[i]);
2256470e851cSJohn Baldwin 				(void)vm_page_unwire_noq(pg);
2257470e851cSJohn Baldwin 				vm_page_free(pg);
2258470e851cSJohn Baldwin 			}
2259470e851cSJohn Baldwin 		}
2260470e851cSJohn Baldwin 	}
2261470e851cSJohn Baldwin 	return (error);
2262470e851cSJohn Baldwin }
2263470e851cSJohn Baldwin 
22649f03d2c0SJohn Baldwin /* Number of TLS records in a batch passed to ktls_enqueue(). */
22659f03d2c0SJohn Baldwin static u_int
22669f03d2c0SJohn Baldwin ktls_batched_records(struct mbuf *m)
22679f03d2c0SJohn Baldwin {
22689f03d2c0SJohn Baldwin 	int page_count, records;
22699f03d2c0SJohn Baldwin 
22709f03d2c0SJohn Baldwin 	records = 0;
22719f03d2c0SJohn Baldwin 	page_count = m->m_epg_enc_cnt;
22729f03d2c0SJohn Baldwin 	while (page_count > 0) {
22739f03d2c0SJohn Baldwin 		records++;
22749f03d2c0SJohn Baldwin 		page_count -= m->m_epg_nrdy;
22759f03d2c0SJohn Baldwin 		m = m->m_next;
22769f03d2c0SJohn Baldwin 	}
22779f03d2c0SJohn Baldwin 	KASSERT(page_count == 0, ("%s: mismatched page count", __func__));
22789f03d2c0SJohn Baldwin 	return (records);
22799f03d2c0SJohn Baldwin }
22809f03d2c0SJohn Baldwin 
2281b2e60773SJohn Baldwin void
2282b2e60773SJohn Baldwin ktls_enqueue(struct mbuf *m, struct socket *so, int page_count)
2283b2e60773SJohn Baldwin {
22849f03d2c0SJohn Baldwin 	struct ktls_session *tls;
2285b2e60773SJohn Baldwin 	struct ktls_wq *wq;
22869f03d2c0SJohn Baldwin 	int queued;
2287b2e60773SJohn Baldwin 	bool running;
2288b2e60773SJohn Baldwin 
22896edfd179SGleb Smirnoff 	KASSERT(((m->m_flags & (M_EXTPG | M_NOTREADY)) ==
22906edfd179SGleb Smirnoff 	    (M_EXTPG | M_NOTREADY)),
2291b2e60773SJohn Baldwin 	    ("ktls_enqueue: %p not unready & nomap mbuf\n", m));
2292b2e60773SJohn Baldwin 	KASSERT(page_count != 0, ("enqueueing TLS mbuf with zero page count"));
2293b2e60773SJohn Baldwin 
22947b6c99d0SGleb Smirnoff 	KASSERT(m->m_epg_tls->mode == TCP_TLS_MODE_SW, ("!SW TLS mbuf"));
2295b2e60773SJohn Baldwin 
22967b6c99d0SGleb Smirnoff 	m->m_epg_enc_cnt = page_count;
2297b2e60773SJohn Baldwin 
2298b2e60773SJohn Baldwin 	/*
2299b2e60773SJohn Baldwin 	 * Save a pointer to the socket.  The caller is responsible
2300b2e60773SJohn Baldwin 	 * for taking an additional reference via soref().
2301b2e60773SJohn Baldwin 	 */
23027b6c99d0SGleb Smirnoff 	m->m_epg_so = so;
2303b2e60773SJohn Baldwin 
23049f03d2c0SJohn Baldwin 	queued = 1;
23059f03d2c0SJohn Baldwin 	tls = m->m_epg_tls;
23069f03d2c0SJohn Baldwin 	wq = &ktls_wq[tls->wq_index];
2307b2e60773SJohn Baldwin 	mtx_lock(&wq->mtx);
23089f03d2c0SJohn Baldwin 	if (__predict_false(tls->sequential_records)) {
23099f03d2c0SJohn Baldwin 		/*
23109f03d2c0SJohn Baldwin 		 * For TLS 1.0, records must be encrypted
23119f03d2c0SJohn Baldwin 		 * sequentially.  For a given connection, all records
23129f03d2c0SJohn Baldwin 		 * queued to the associated work queue are processed
23139f03d2c0SJohn Baldwin 		 * sequentially.  However, sendfile(2) might complete
23149f03d2c0SJohn Baldwin 		 * I/O requests spanning multiple TLS records out of
23159f03d2c0SJohn Baldwin 		 * order.  Here we ensure TLS records are enqueued to
23169f03d2c0SJohn Baldwin 		 * the work queue in FIFO order.
23179f03d2c0SJohn Baldwin 		 *
23189f03d2c0SJohn Baldwin 		 * tls->next_seqno holds the sequence number of the
23199f03d2c0SJohn Baldwin 		 * next TLS record that should be enqueued to the work
23209f03d2c0SJohn Baldwin 		 * queue.  If this next record is not tls->next_seqno,
23219f03d2c0SJohn Baldwin 		 * it must be a future record, so insert it, sorted by
23229f03d2c0SJohn Baldwin 		 * TLS sequence number, into tls->pending_records and
23239f03d2c0SJohn Baldwin 		 * return.
23249f03d2c0SJohn Baldwin 		 *
23259f03d2c0SJohn Baldwin 		 * If this TLS record matches tls->next_seqno, place
23269f03d2c0SJohn Baldwin 		 * it in the work queue and then check
23279f03d2c0SJohn Baldwin 		 * tls->pending_records to see if any
23289f03d2c0SJohn Baldwin 		 * previously-queued records are now ready for
23299f03d2c0SJohn Baldwin 		 * encryption.
23309f03d2c0SJohn Baldwin 		 */
23319f03d2c0SJohn Baldwin 		if (m->m_epg_seqno != tls->next_seqno) {
23329f03d2c0SJohn Baldwin 			struct mbuf *n, *p;
23339f03d2c0SJohn Baldwin 
23349f03d2c0SJohn Baldwin 			p = NULL;
23359f03d2c0SJohn Baldwin 			STAILQ_FOREACH(n, &tls->pending_records, m_epg_stailq) {
23369f03d2c0SJohn Baldwin 				if (n->m_epg_seqno > m->m_epg_seqno)
23379f03d2c0SJohn Baldwin 					break;
23389f03d2c0SJohn Baldwin 				p = n;
23399f03d2c0SJohn Baldwin 			}
23409f03d2c0SJohn Baldwin 			if (n == NULL)
23419f03d2c0SJohn Baldwin 				STAILQ_INSERT_TAIL(&tls->pending_records, m,
23429f03d2c0SJohn Baldwin 				    m_epg_stailq);
23439f03d2c0SJohn Baldwin 			else if (p == NULL)
23449f03d2c0SJohn Baldwin 				STAILQ_INSERT_HEAD(&tls->pending_records, m,
23459f03d2c0SJohn Baldwin 				    m_epg_stailq);
23469f03d2c0SJohn Baldwin 			else
23479f03d2c0SJohn Baldwin 				STAILQ_INSERT_AFTER(&tls->pending_records, p, m,
23489f03d2c0SJohn Baldwin 				    m_epg_stailq);
23499f03d2c0SJohn Baldwin 			mtx_unlock(&wq->mtx);
23509f03d2c0SJohn Baldwin 			counter_u64_add(ktls_cnt_tx_pending, 1);
23519f03d2c0SJohn Baldwin 			return;
23529f03d2c0SJohn Baldwin 		}
23539f03d2c0SJohn Baldwin 
23549f03d2c0SJohn Baldwin 		tls->next_seqno += ktls_batched_records(m);
23553c0e5685SJohn Baldwin 		STAILQ_INSERT_TAIL(&wq->m_head, m, m_epg_stailq);
23569f03d2c0SJohn Baldwin 
23579f03d2c0SJohn Baldwin 		while (!STAILQ_EMPTY(&tls->pending_records)) {
23589f03d2c0SJohn Baldwin 			struct mbuf *n;
23599f03d2c0SJohn Baldwin 
23609f03d2c0SJohn Baldwin 			n = STAILQ_FIRST(&tls->pending_records);
23619f03d2c0SJohn Baldwin 			if (n->m_epg_seqno != tls->next_seqno)
23629f03d2c0SJohn Baldwin 				break;
23639f03d2c0SJohn Baldwin 
23649f03d2c0SJohn Baldwin 			queued++;
23659f03d2c0SJohn Baldwin 			STAILQ_REMOVE_HEAD(&tls->pending_records, m_epg_stailq);
23669f03d2c0SJohn Baldwin 			tls->next_seqno += ktls_batched_records(n);
23679f03d2c0SJohn Baldwin 			STAILQ_INSERT_TAIL(&wq->m_head, n, m_epg_stailq);
23689f03d2c0SJohn Baldwin 		}
23699f03d2c0SJohn Baldwin 		counter_u64_add(ktls_cnt_tx_pending, -(queued - 1));
23709f03d2c0SJohn Baldwin 	} else
23719f03d2c0SJohn Baldwin 		STAILQ_INSERT_TAIL(&wq->m_head, m, m_epg_stailq);
23729f03d2c0SJohn Baldwin 
2373b2e60773SJohn Baldwin 	running = wq->running;
2374b2e60773SJohn Baldwin 	mtx_unlock(&wq->mtx);
2375b2e60773SJohn Baldwin 	if (!running)
2376b2e60773SJohn Baldwin 		wakeup(wq);
23779f03d2c0SJohn Baldwin 	counter_u64_add(ktls_cnt_tx_queued, queued);
2378b2e60773SJohn Baldwin }
2379b2e60773SJohn Baldwin 
2380470e851cSJohn Baldwin /*
2381470e851cSJohn Baldwin  * Once a file-backed mbuf (from sendfile) has been encrypted, free
2382470e851cSJohn Baldwin  * the pages from the file and replace them with the anonymous pages
2383470e851cSJohn Baldwin  * allocated in ktls_encrypt_record().
2384470e851cSJohn Baldwin  */
2385470e851cSJohn Baldwin static void
2386470e851cSJohn Baldwin ktls_finish_nonanon(struct mbuf *m, struct ktls_ocf_encrypt_state *state)
2387470e851cSJohn Baldwin {
2388470e851cSJohn Baldwin 	int i;
2389470e851cSJohn Baldwin 
2390470e851cSJohn Baldwin 	MPASS((m->m_epg_flags & EPG_FLAG_ANON) == 0);
2391470e851cSJohn Baldwin 
2392470e851cSJohn Baldwin 	/* Free the old pages. */
2393470e851cSJohn Baldwin 	m->m_ext.ext_free(m);
2394470e851cSJohn Baldwin 
2395470e851cSJohn Baldwin 	/* Replace them with the new pages. */
2396470e851cSJohn Baldwin 	if (state->cbuf != NULL) {
2397470e851cSJohn Baldwin 		for (i = 0; i < m->m_epg_npgs; i++)
2398470e851cSJohn Baldwin 			m->m_epg_pa[i] = state->parray[0] + ptoa(i);
2399470e851cSJohn Baldwin 
2400470e851cSJohn Baldwin 		/* Contig pages should go back to the cache. */
2401470e851cSJohn Baldwin 		m->m_ext.ext_free = ktls_free_mext_contig;
2402470e851cSJohn Baldwin 	} else {
2403470e851cSJohn Baldwin 		for (i = 0; i < m->m_epg_npgs; i++)
2404470e851cSJohn Baldwin 			m->m_epg_pa[i] = state->parray[i];
2405470e851cSJohn Baldwin 
2406470e851cSJohn Baldwin 		/* Use the basic free routine. */
2407470e851cSJohn Baldwin 		m->m_ext.ext_free = mb_free_mext_pgs;
2408470e851cSJohn Baldwin 	}
2409470e851cSJohn Baldwin 
2410470e851cSJohn Baldwin 	/* Pages are now writable. */
2411470e851cSJohn Baldwin 	m->m_epg_flags |= EPG_FLAG_ANON;
2412470e851cSJohn Baldwin }
24136b313a3aSJohn Baldwin 
2414b2e60773SJohn Baldwin static __noinline void
241549f6925cSMark Johnston ktls_encrypt(struct ktls_wq *wq, struct mbuf *top)
2416b2e60773SJohn Baldwin {
2417470e851cSJohn Baldwin 	struct ktls_ocf_encrypt_state state;
2418b2e60773SJohn Baldwin 	struct ktls_session *tls;
2419b2e60773SJohn Baldwin 	struct socket *so;
2420d90fe9d0SGleb Smirnoff 	struct mbuf *m;
2421470e851cSJohn Baldwin 	int error, npages, total_pages;
2422b2e60773SJohn Baldwin 
24237b6c99d0SGleb Smirnoff 	so = top->m_epg_so;
24247b6c99d0SGleb Smirnoff 	tls = top->m_epg_tls;
2425d90fe9d0SGleb Smirnoff 	KASSERT(tls != NULL, ("tls = NULL, top = %p\n", top));
2426d90fe9d0SGleb Smirnoff 	KASSERT(so != NULL, ("so = NULL, top = %p\n", top));
2427b2e60773SJohn Baldwin #ifdef INVARIANTS
24287b6c99d0SGleb Smirnoff 	top->m_epg_so = NULL;
2429b2e60773SJohn Baldwin #endif
24307b6c99d0SGleb Smirnoff 	total_pages = top->m_epg_enc_cnt;
2431b2e60773SJohn Baldwin 	npages = 0;
2432b2e60773SJohn Baldwin 
2433b2e60773SJohn Baldwin 	/*
2434b2e60773SJohn Baldwin 	 * Encrypt the TLS records in the chain of mbufs starting with
2435b2e60773SJohn Baldwin 	 * 'top'.  'total_pages' gives us a total count of pages and is
2436b2e60773SJohn Baldwin 	 * used to know when we have finished encrypting the TLS
2437b2e60773SJohn Baldwin 	 * records originally queued with 'top'.
2438b2e60773SJohn Baldwin 	 *
2439b2e60773SJohn Baldwin 	 * NB: These mbufs are queued in the socket buffer and
2440b2e60773SJohn Baldwin 	 * 'm_next' is traversing the mbufs in the socket buffer.  The
2441b2e60773SJohn Baldwin 	 * socket buffer lock is not held while traversing this chain.
2442b2e60773SJohn Baldwin 	 * Since the mbufs are all marked M_NOTREADY their 'm_next'
2443b2e60773SJohn Baldwin 	 * pointers should be stable.  However, the 'm_next' of the
2444b2e60773SJohn Baldwin 	 * last mbuf encrypted is not necessarily NULL.  It can point
2445b2e60773SJohn Baldwin 	 * to other mbufs appended while 'top' was on the TLS work
2446b2e60773SJohn Baldwin 	 * queue.
2447b2e60773SJohn Baldwin 	 *
2448b2e60773SJohn Baldwin 	 * Each mbuf holds an entire TLS record.
2449b2e60773SJohn Baldwin 	 */
2450b2e60773SJohn Baldwin 	error = 0;
2451b2e60773SJohn Baldwin 	for (m = top; npages != total_pages; m = m->m_next) {
24527b6c99d0SGleb Smirnoff 		KASSERT(m->m_epg_tls == tls,
2453b2e60773SJohn Baldwin 		    ("different TLS sessions in a single mbuf chain: %p vs %p",
24547b6c99d0SGleb Smirnoff 		    tls, m->m_epg_tls));
24557b6c99d0SGleb Smirnoff 		KASSERT(npages + m->m_epg_npgs <= total_pages,
2456b2e60773SJohn Baldwin 		    ("page count mismatch: top %p, total_pages %d, m %p", top,
2457b2e60773SJohn Baldwin 		    total_pages, m));
2458b2e60773SJohn Baldwin 
2459470e851cSJohn Baldwin 		error = ktls_encrypt_record(wq, m, tls, &state);
246021e3c1fbSJohn Baldwin 		if (error) {
246121e3c1fbSJohn Baldwin 			counter_u64_add(ktls_offload_failed_crypto, 1);
246221e3c1fbSJohn Baldwin 			break;
246321e3c1fbSJohn Baldwin 		}
246421e3c1fbSJohn Baldwin 
2465470e851cSJohn Baldwin 		if ((m->m_epg_flags & EPG_FLAG_ANON) == 0)
2466470e851cSJohn Baldwin 			ktls_finish_nonanon(m, &state);
2467470e851cSJohn Baldwin 
2468d16cb228SJohn Baldwin 		npages += m->m_epg_nrdy;
2469b2e60773SJohn Baldwin 
2470b2e60773SJohn Baldwin 		/*
2471b2e60773SJohn Baldwin 		 * Drop a reference to the session now that it is no
2472b2e60773SJohn Baldwin 		 * longer needed.  Existing code depends on encrypted
2473b2e60773SJohn Baldwin 		 * records having no associated session vs
2474b2e60773SJohn Baldwin 		 * yet-to-be-encrypted records having an associated
2475b2e60773SJohn Baldwin 		 * session.
2476b2e60773SJohn Baldwin 		 */
24777b6c99d0SGleb Smirnoff 		m->m_epg_tls = NULL;
2478b2e60773SJohn Baldwin 		ktls_free(tls);
2479b2e60773SJohn Baldwin 	}
2480b2e60773SJohn Baldwin 
2481b2e60773SJohn Baldwin 	CURVNET_SET(so->so_vnet);
2482b2e60773SJohn Baldwin 	if (error == 0) {
2483b2e60773SJohn Baldwin 		(void)(*so->so_proto->pr_usrreqs->pru_ready)(so, top, npages);
2484b2e60773SJohn Baldwin 	} else {
2485b2e60773SJohn Baldwin 		so->so_proto->pr_usrreqs->pru_abort(so);
2486b2e60773SJohn Baldwin 		so->so_error = EIO;
2487b2e60773SJohn Baldwin 		mb_free_notready(top, total_pages);
2488b2e60773SJohn Baldwin 	}
2489b2e60773SJohn Baldwin 
2490b2e60773SJohn Baldwin 	sorele(so);
2491b2e60773SJohn Baldwin 	CURVNET_RESTORE();
2492b2e60773SJohn Baldwin }
2493b2e60773SJohn Baldwin 
2494470e851cSJohn Baldwin void
2495470e851cSJohn Baldwin ktls_encrypt_cb(struct ktls_ocf_encrypt_state *state, int error)
2496470e851cSJohn Baldwin {
2497470e851cSJohn Baldwin 	struct ktls_session *tls;
2498470e851cSJohn Baldwin 	struct socket *so;
2499470e851cSJohn Baldwin 	struct mbuf *m;
2500470e851cSJohn Baldwin 	int npages;
2501470e851cSJohn Baldwin 
2502470e851cSJohn Baldwin 	m = state->m;
2503470e851cSJohn Baldwin 
2504470e851cSJohn Baldwin 	if ((m->m_epg_flags & EPG_FLAG_ANON) == 0)
2505470e851cSJohn Baldwin 		ktls_finish_nonanon(m, state);
2506470e851cSJohn Baldwin 
2507470e851cSJohn Baldwin 	so = state->so;
2508470e851cSJohn Baldwin 	free(state, M_KTLS);
2509470e851cSJohn Baldwin 
2510470e851cSJohn Baldwin 	/*
2511470e851cSJohn Baldwin 	 * Drop a reference to the session now that it is no longer
2512470e851cSJohn Baldwin 	 * needed.  Existing code depends on encrypted records having
2513470e851cSJohn Baldwin 	 * no associated session vs yet-to-be-encrypted records having
2514470e851cSJohn Baldwin 	 * an associated session.
2515470e851cSJohn Baldwin 	 */
2516470e851cSJohn Baldwin 	tls = m->m_epg_tls;
2517470e851cSJohn Baldwin 	m->m_epg_tls = NULL;
2518470e851cSJohn Baldwin 	ktls_free(tls);
2519470e851cSJohn Baldwin 
2520470e851cSJohn Baldwin 	if (error != 0)
2521470e851cSJohn Baldwin 		counter_u64_add(ktls_offload_failed_crypto, 1);
2522470e851cSJohn Baldwin 
2523470e851cSJohn Baldwin 	CURVNET_SET(so->so_vnet);
2524470e851cSJohn Baldwin 	npages = m->m_epg_nrdy;
2525470e851cSJohn Baldwin 
2526470e851cSJohn Baldwin 	if (error == 0) {
2527470e851cSJohn Baldwin 		(void)(*so->so_proto->pr_usrreqs->pru_ready)(so, m, npages);
2528470e851cSJohn Baldwin 	} else {
2529470e851cSJohn Baldwin 		so->so_proto->pr_usrreqs->pru_abort(so);
2530470e851cSJohn Baldwin 		so->so_error = EIO;
2531470e851cSJohn Baldwin 		mb_free_notready(m, npages);
2532470e851cSJohn Baldwin 	}
2533470e851cSJohn Baldwin 
2534470e851cSJohn Baldwin 	sorele(so);
2535470e851cSJohn Baldwin 	CURVNET_RESTORE();
2536470e851cSJohn Baldwin }
2537470e851cSJohn Baldwin 
2538470e851cSJohn Baldwin /*
2539470e851cSJohn Baldwin  * Similar to ktls_encrypt, but used with asynchronous OCF backends
2540470e851cSJohn Baldwin  * (coprocessors) where encryption does not use host CPU resources and
2541470e851cSJohn Baldwin  * it can be beneficial to queue more requests than CPUs.
2542470e851cSJohn Baldwin  */
2543470e851cSJohn Baldwin static __noinline void
2544470e851cSJohn Baldwin ktls_encrypt_async(struct ktls_wq *wq, struct mbuf *top)
2545470e851cSJohn Baldwin {
2546470e851cSJohn Baldwin 	struct ktls_ocf_encrypt_state *state;
2547470e851cSJohn Baldwin 	struct ktls_session *tls;
2548470e851cSJohn Baldwin 	struct socket *so;
2549470e851cSJohn Baldwin 	struct mbuf *m, *n;
2550470e851cSJohn Baldwin 	int error, mpages, npages, total_pages;
2551470e851cSJohn Baldwin 
2552470e851cSJohn Baldwin 	so = top->m_epg_so;
2553470e851cSJohn Baldwin 	tls = top->m_epg_tls;
2554470e851cSJohn Baldwin 	KASSERT(tls != NULL, ("tls = NULL, top = %p\n", top));
2555470e851cSJohn Baldwin 	KASSERT(so != NULL, ("so = NULL, top = %p\n", top));
2556470e851cSJohn Baldwin #ifdef INVARIANTS
2557470e851cSJohn Baldwin 	top->m_epg_so = NULL;
2558470e851cSJohn Baldwin #endif
2559470e851cSJohn Baldwin 	total_pages = top->m_epg_enc_cnt;
2560470e851cSJohn Baldwin 	npages = 0;
2561470e851cSJohn Baldwin 
2562470e851cSJohn Baldwin 	error = 0;
2563470e851cSJohn Baldwin 	for (m = top; npages != total_pages; m = n) {
2564470e851cSJohn Baldwin 		KASSERT(m->m_epg_tls == tls,
2565470e851cSJohn Baldwin 		    ("different TLS sessions in a single mbuf chain: %p vs %p",
2566470e851cSJohn Baldwin 		    tls, m->m_epg_tls));
2567470e851cSJohn Baldwin 		KASSERT(npages + m->m_epg_npgs <= total_pages,
2568470e851cSJohn Baldwin 		    ("page count mismatch: top %p, total_pages %d, m %p", top,
2569470e851cSJohn Baldwin 		    total_pages, m));
2570470e851cSJohn Baldwin 
2571470e851cSJohn Baldwin 		state = malloc(sizeof(*state), M_KTLS, M_WAITOK | M_ZERO);
2572470e851cSJohn Baldwin 		soref(so);
2573470e851cSJohn Baldwin 		state->so = so;
2574470e851cSJohn Baldwin 		state->m = m;
2575470e851cSJohn Baldwin 
2576470e851cSJohn Baldwin 		mpages = m->m_epg_nrdy;
2577470e851cSJohn Baldwin 		n = m->m_next;
2578470e851cSJohn Baldwin 
2579470e851cSJohn Baldwin 		error = ktls_encrypt_record(wq, m, tls, state);
2580470e851cSJohn Baldwin 		if (error) {
2581470e851cSJohn Baldwin 			counter_u64_add(ktls_offload_failed_crypto, 1);
2582470e851cSJohn Baldwin 			free(state, M_KTLS);
2583470e851cSJohn Baldwin 			CURVNET_SET(so->so_vnet);
2584470e851cSJohn Baldwin 			sorele(so);
2585470e851cSJohn Baldwin 			CURVNET_RESTORE();
2586470e851cSJohn Baldwin 			break;
2587470e851cSJohn Baldwin 		}
2588470e851cSJohn Baldwin 
2589470e851cSJohn Baldwin 		npages += mpages;
2590470e851cSJohn Baldwin 	}
2591470e851cSJohn Baldwin 
2592470e851cSJohn Baldwin 	CURVNET_SET(so->so_vnet);
2593470e851cSJohn Baldwin 	if (error != 0) {
2594470e851cSJohn Baldwin 		so->so_proto->pr_usrreqs->pru_abort(so);
2595470e851cSJohn Baldwin 		so->so_error = EIO;
2596470e851cSJohn Baldwin 		mb_free_notready(m, total_pages - npages);
2597470e851cSJohn Baldwin 	}
2598470e851cSJohn Baldwin 
2599470e851cSJohn Baldwin 	sorele(so);
2600470e851cSJohn Baldwin 	CURVNET_RESTORE();
2601470e851cSJohn Baldwin }
2602470e851cSJohn Baldwin 
2603a72ee355SJohn Baldwin static int
2604a72ee355SJohn Baldwin ktls_bind_domain(int domain)
2605a72ee355SJohn Baldwin {
2606a72ee355SJohn Baldwin 	int error;
2607a72ee355SJohn Baldwin 
2608a72ee355SJohn Baldwin 	error = cpuset_setthread(curthread->td_tid, &cpuset_domain[domain]);
2609a72ee355SJohn Baldwin 	if (error != 0)
2610a72ee355SJohn Baldwin 		return (error);
2611a72ee355SJohn Baldwin 	curthread->td_domain.dr_policy = DOMAINSET_PREF(domain);
2612a72ee355SJohn Baldwin 	return (0);
2613a72ee355SJohn Baldwin }
2614a72ee355SJohn Baldwin 
2615b2e60773SJohn Baldwin static void
261698215005SAndrew Gallatin ktls_alloc_thread(void *ctx)
261798215005SAndrew Gallatin {
261898215005SAndrew Gallatin 	struct ktls_domain_info *ktls_domain = ctx;
261998215005SAndrew Gallatin 	struct ktls_alloc_thread *sc = &ktls_domain->alloc_td;
262098215005SAndrew Gallatin 	void **buf;
262198215005SAndrew Gallatin 	struct sysctl_oid *oid;
262298215005SAndrew Gallatin 	char name[80];
2623a72ee355SJohn Baldwin 	int domain, error, i, nbufs;
262498215005SAndrew Gallatin 
2625a72ee355SJohn Baldwin 	domain = ktls_domain - ktls_domains;
262698215005SAndrew Gallatin 	if (bootverbose)
2627a72ee355SJohn Baldwin 		printf("Starting KTLS alloc thread for domain %d\n", domain);
2628a72ee355SJohn Baldwin 	error = ktls_bind_domain(domain);
2629a72ee355SJohn Baldwin 	if (error)
2630a72ee355SJohn Baldwin 		printf("Unable to bind KTLS alloc thread for domain %d: error %d\n",
2631a72ee355SJohn Baldwin 		    domain, error);
2632a72ee355SJohn Baldwin 	snprintf(name, sizeof(name), "domain%d", domain);
263398215005SAndrew Gallatin 	oid = SYSCTL_ADD_NODE(NULL, SYSCTL_STATIC_CHILDREN(_kern_ipc_tls), OID_AUTO,
263498215005SAndrew Gallatin 	    name, CTLFLAG_RD | CTLFLAG_MPSAFE, NULL, "");
263598215005SAndrew Gallatin 	SYSCTL_ADD_U64(NULL, SYSCTL_CHILDREN(oid), OID_AUTO, "allocs",
263698215005SAndrew Gallatin 	    CTLFLAG_RD,  &sc->allocs, 0, "buffers allocated");
263798215005SAndrew Gallatin 	SYSCTL_ADD_U64(NULL, SYSCTL_CHILDREN(oid), OID_AUTO, "wakeups",
263898215005SAndrew Gallatin 	    CTLFLAG_RD,  &sc->wakeups, 0, "thread wakeups");
263998215005SAndrew Gallatin 	SYSCTL_ADD_INT(NULL, SYSCTL_CHILDREN(oid), OID_AUTO, "running",
264098215005SAndrew Gallatin 	    CTLFLAG_RD,  &sc->running, 0, "thread running");
264198215005SAndrew Gallatin 
264298215005SAndrew Gallatin 	buf = NULL;
264398215005SAndrew Gallatin 	nbufs = 0;
264498215005SAndrew Gallatin 	for (;;) {
264598215005SAndrew Gallatin 		atomic_store_int(&sc->running, 0);
264609066b98SAndrew Gallatin 		tsleep(sc, PZERO | PNOLOCK, "-",  0);
264798215005SAndrew Gallatin 		atomic_store_int(&sc->running, 1);
264898215005SAndrew Gallatin 		sc->wakeups++;
264998215005SAndrew Gallatin 		if (nbufs != ktls_max_alloc) {
265098215005SAndrew Gallatin 			free(buf, M_KTLS);
265198215005SAndrew Gallatin 			nbufs = atomic_load_int(&ktls_max_alloc);
265298215005SAndrew Gallatin 			buf = malloc(sizeof(void *) * nbufs, M_KTLS,
265398215005SAndrew Gallatin 			    M_WAITOK | M_ZERO);
265498215005SAndrew Gallatin 		}
265598215005SAndrew Gallatin 		/*
265698215005SAndrew Gallatin 		 * Below we allocate nbufs with different allocation
265798215005SAndrew Gallatin 		 * flags than we use when allocating normally during
265898215005SAndrew Gallatin 		 * encryption in the ktls worker thread.  We specify
265998215005SAndrew Gallatin 		 * M_NORECLAIM in the worker thread. However, we omit
266098215005SAndrew Gallatin 		 * that flag here and add M_WAITOK so that the VM
266198215005SAndrew Gallatin 		 * system is permitted to perform expensive work to
266298215005SAndrew Gallatin 		 * defragment memory.  We do this here, as it does not
266398215005SAndrew Gallatin 		 * matter if this thread blocks.  If we block a ktls
266498215005SAndrew Gallatin 		 * worker thread, we risk developing backlogs of
266598215005SAndrew Gallatin 		 * buffers to be encrypted, leading to surges of
266698215005SAndrew Gallatin 		 * traffic and potential NIC output drops.
266798215005SAndrew Gallatin 		 */
266898215005SAndrew Gallatin 		for (i = 0; i < nbufs; i++) {
266998215005SAndrew Gallatin 			buf[i] = uma_zalloc(ktls_buffer_zone, M_WAITOK);
267098215005SAndrew Gallatin 			sc->allocs++;
267198215005SAndrew Gallatin 		}
267298215005SAndrew Gallatin 		for (i = 0; i < nbufs; i++) {
267398215005SAndrew Gallatin 			uma_zfree(ktls_buffer_zone, buf[i]);
267498215005SAndrew Gallatin 			buf[i] = NULL;
267598215005SAndrew Gallatin 		}
267698215005SAndrew Gallatin 	}
267798215005SAndrew Gallatin }
267898215005SAndrew Gallatin 
267998215005SAndrew Gallatin static void
2680b2e60773SJohn Baldwin ktls_work_thread(void *ctx)
2681b2e60773SJohn Baldwin {
2682b2e60773SJohn Baldwin 	struct ktls_wq *wq = ctx;
2683d90fe9d0SGleb Smirnoff 	struct mbuf *m, *n;
26843c0e5685SJohn Baldwin 	struct socket *so, *son;
26853c0e5685SJohn Baldwin 	STAILQ_HEAD(, mbuf) local_m_head;
26863c0e5685SJohn Baldwin 	STAILQ_HEAD(, socket) local_so_head;
2687a72ee355SJohn Baldwin 	int cpu;
2688a72ee355SJohn Baldwin 
2689a72ee355SJohn Baldwin 	cpu = wq - ktls_wq;
2690a72ee355SJohn Baldwin 	if (bootverbose)
2691a72ee355SJohn Baldwin 		printf("Starting KTLS worker thread for CPU %d\n", cpu);
2692a72ee355SJohn Baldwin 
2693a72ee355SJohn Baldwin 	/*
2694a72ee355SJohn Baldwin 	 * Bind to a core.  If ktls_bind_threads is > 1, then
2695a72ee355SJohn Baldwin 	 * we bind to the NUMA domain instead.
2696a72ee355SJohn Baldwin 	 */
2697a72ee355SJohn Baldwin 	if (ktls_bind_threads) {
2698a72ee355SJohn Baldwin 		int error;
2699b2e60773SJohn Baldwin 
270002bc3865SAndrew Gallatin 		if (ktls_bind_threads > 1) {
2701a72ee355SJohn Baldwin 			struct pcpu *pc = pcpu_find(cpu);
2702a72ee355SJohn Baldwin 
2703a72ee355SJohn Baldwin 			error = ktls_bind_domain(pc->pc_domain);
2704a72ee355SJohn Baldwin 		} else {
2705a72ee355SJohn Baldwin 			cpuset_t mask;
2706a72ee355SJohn Baldwin 
2707a72ee355SJohn Baldwin 			CPU_SETOF(cpu, &mask);
2708a72ee355SJohn Baldwin 			error = cpuset_setthread(curthread->td_tid, &mask);
2709a72ee355SJohn Baldwin 		}
2710a72ee355SJohn Baldwin 		if (error)
2711a72ee355SJohn Baldwin 			printf("Unable to bind KTLS worker thread for CPU %d: error %d\n",
2712a72ee355SJohn Baldwin 				cpu, error);
271302bc3865SAndrew Gallatin 	}
2714b2e60773SJohn Baldwin #if defined(__aarch64__) || defined(__amd64__) || defined(__i386__)
2715b2e60773SJohn Baldwin 	fpu_kern_thread(0);
2716b2e60773SJohn Baldwin #endif
2717b2e60773SJohn Baldwin 	for (;;) {
2718b2e60773SJohn Baldwin 		mtx_lock(&wq->mtx);
27193c0e5685SJohn Baldwin 		while (STAILQ_EMPTY(&wq->m_head) &&
27203c0e5685SJohn Baldwin 		    STAILQ_EMPTY(&wq->so_head)) {
2721b2e60773SJohn Baldwin 			wq->running = false;
2722b2e60773SJohn Baldwin 			mtx_sleep(wq, &wq->mtx, 0, "-", 0);
2723b2e60773SJohn Baldwin 			wq->running = true;
2724b2e60773SJohn Baldwin 		}
2725b2e60773SJohn Baldwin 
27263c0e5685SJohn Baldwin 		STAILQ_INIT(&local_m_head);
27273c0e5685SJohn Baldwin 		STAILQ_CONCAT(&local_m_head, &wq->m_head);
27283c0e5685SJohn Baldwin 		STAILQ_INIT(&local_so_head);
27293c0e5685SJohn Baldwin 		STAILQ_CONCAT(&local_so_head, &wq->so_head);
2730b2e60773SJohn Baldwin 		mtx_unlock(&wq->mtx);
2731b2e60773SJohn Baldwin 
27323c0e5685SJohn Baldwin 		STAILQ_FOREACH_SAFE(m, &local_m_head, m_epg_stailq, n) {
27337b6c99d0SGleb Smirnoff 			if (m->m_epg_flags & EPG_FLAG_2FREE) {
27347b6c99d0SGleb Smirnoff 				ktls_free(m->m_epg_tls);
2735904a08f3SMateusz Guzik 				m_free_raw(m);
2736eeec8348SGleb Smirnoff 			} else {
2737470e851cSJohn Baldwin 				if (m->m_epg_tls->sync_dispatch)
273849f6925cSMark Johnston 					ktls_encrypt(wq, m);
2739470e851cSJohn Baldwin 				else
2740470e851cSJohn Baldwin 					ktls_encrypt_async(wq, m);
27413c0e5685SJohn Baldwin 				counter_u64_add(ktls_cnt_tx_queued, -1);
2742b2e60773SJohn Baldwin 			}
2743b2e60773SJohn Baldwin 		}
27443c0e5685SJohn Baldwin 
27453c0e5685SJohn Baldwin 		STAILQ_FOREACH_SAFE(so, &local_so_head, so_ktls_rx_list, son) {
27463c0e5685SJohn Baldwin 			ktls_decrypt(so);
27473c0e5685SJohn Baldwin 			counter_u64_add(ktls_cnt_rx_queued, -1);
27483c0e5685SJohn Baldwin 		}
2749b2e60773SJohn Baldwin 	}
2750b2e60773SJohn Baldwin }
275128d0a740SAndrew Gallatin 
27524150a5a8SAndrew Gallatin #if defined(INET) || defined(INET6)
275328d0a740SAndrew Gallatin static void
275428d0a740SAndrew Gallatin ktls_disable_ifnet_help(void *context, int pending __unused)
275528d0a740SAndrew Gallatin {
275628d0a740SAndrew Gallatin 	struct ktls_session *tls;
275728d0a740SAndrew Gallatin 	struct inpcb *inp;
275828d0a740SAndrew Gallatin 	struct tcpcb *tp;
275928d0a740SAndrew Gallatin 	struct socket *so;
276028d0a740SAndrew Gallatin 	int err;
276128d0a740SAndrew Gallatin 
276228d0a740SAndrew Gallatin 	tls = context;
276328d0a740SAndrew Gallatin 	inp = tls->inp;
276428d0a740SAndrew Gallatin 	if (inp == NULL)
276528d0a740SAndrew Gallatin 		return;
276628d0a740SAndrew Gallatin 	INP_WLOCK(inp);
276728d0a740SAndrew Gallatin 	so = inp->inp_socket;
276828d0a740SAndrew Gallatin 	MPASS(so != NULL);
2769db0ac6deSCy Schubert 	if (inp->inp_flags & (INP_TIMEWAIT | INP_DROPPED)) {
277028d0a740SAndrew Gallatin 		goto out;
277128d0a740SAndrew Gallatin 	}
277228d0a740SAndrew Gallatin 
277328d0a740SAndrew Gallatin 	if (so->so_snd.sb_tls_info != NULL)
277428d0a740SAndrew Gallatin 		err = ktls_set_tx_mode(so, TCP_TLS_MODE_SW);
277528d0a740SAndrew Gallatin 	else
277628d0a740SAndrew Gallatin 		err = ENXIO;
277728d0a740SAndrew Gallatin 	if (err == 0) {
277828d0a740SAndrew Gallatin 		counter_u64_add(ktls_ifnet_disable_ok, 1);
277928d0a740SAndrew Gallatin 		/* ktls_set_tx_mode() drops inp wlock, so recheck flags */
278028d0a740SAndrew Gallatin 		if ((inp->inp_flags & (INP_TIMEWAIT | INP_DROPPED)) == 0 &&
278128d0a740SAndrew Gallatin 		    (tp = intotcpcb(inp)) != NULL &&
278228d0a740SAndrew Gallatin 		    tp->t_fb->tfb_hwtls_change != NULL)
278328d0a740SAndrew Gallatin 			(*tp->t_fb->tfb_hwtls_change)(tp, 0);
278428d0a740SAndrew Gallatin 	} else {
278528d0a740SAndrew Gallatin 		counter_u64_add(ktls_ifnet_disable_fail, 1);
278628d0a740SAndrew Gallatin 	}
278728d0a740SAndrew Gallatin 
278828d0a740SAndrew Gallatin out:
278928d0a740SAndrew Gallatin 	sorele(so);
279028d0a740SAndrew Gallatin 	if (!in_pcbrele_wlocked(inp))
279128d0a740SAndrew Gallatin 		INP_WUNLOCK(inp);
279228d0a740SAndrew Gallatin 	ktls_free(tls);
279328d0a740SAndrew Gallatin }
279428d0a740SAndrew Gallatin 
279528d0a740SAndrew Gallatin /*
279628d0a740SAndrew Gallatin  * Called when re-transmits are becoming a substantial portion of the
279728d0a740SAndrew Gallatin  * sends on this connection.  When this happens, we transition the
279828d0a740SAndrew Gallatin  * connection to software TLS.  This is needed because most inline TLS
279928d0a740SAndrew Gallatin  * NICs keep crypto state only for in-order transmits.  This means
280028d0a740SAndrew Gallatin  * that to handle a TCP rexmit (which is out-of-order), the NIC must
280128d0a740SAndrew Gallatin  * re-DMA the entire TLS record up to and including the current
280228d0a740SAndrew Gallatin  * segment.  This means that when re-transmitting the last ~1448 byte
280328d0a740SAndrew Gallatin  * segment of a 16KB TLS record, we could wind up re-DMA'ing an order
280428d0a740SAndrew Gallatin  * of magnitude more data than we are sending.  This can cause the
280528d0a740SAndrew Gallatin  * PCIe link to saturate well before the network, which can cause
280628d0a740SAndrew Gallatin  * output drops, and a general loss of capacity.
280728d0a740SAndrew Gallatin  */
280828d0a740SAndrew Gallatin void
280928d0a740SAndrew Gallatin ktls_disable_ifnet(void *arg)
281028d0a740SAndrew Gallatin {
281128d0a740SAndrew Gallatin 	struct tcpcb *tp;
281228d0a740SAndrew Gallatin 	struct inpcb *inp;
281328d0a740SAndrew Gallatin 	struct socket *so;
281428d0a740SAndrew Gallatin 	struct ktls_session *tls;
281528d0a740SAndrew Gallatin 
281628d0a740SAndrew Gallatin 	tp = arg;
281728d0a740SAndrew Gallatin 	inp = tp->t_inpcb;
281828d0a740SAndrew Gallatin 	INP_WLOCK_ASSERT(inp);
281928d0a740SAndrew Gallatin 	so = inp->inp_socket;
282028d0a740SAndrew Gallatin 	SOCK_LOCK(so);
282128d0a740SAndrew Gallatin 	tls = so->so_snd.sb_tls_info;
282228d0a740SAndrew Gallatin 	if (tls->disable_ifnet_pending) {
282328d0a740SAndrew Gallatin 		SOCK_UNLOCK(so);
282428d0a740SAndrew Gallatin 		return;
282528d0a740SAndrew Gallatin 	}
282628d0a740SAndrew Gallatin 
282728d0a740SAndrew Gallatin 	/*
282828d0a740SAndrew Gallatin 	 * note that disable_ifnet_pending is never cleared; disabling
282928d0a740SAndrew Gallatin 	 * ifnet can only be done once per session, so we never want
283028d0a740SAndrew Gallatin 	 * to do it again
283128d0a740SAndrew Gallatin 	 */
283228d0a740SAndrew Gallatin 
283328d0a740SAndrew Gallatin 	(void)ktls_hold(tls);
283428d0a740SAndrew Gallatin 	in_pcbref(inp);
283528d0a740SAndrew Gallatin 	soref(so);
283628d0a740SAndrew Gallatin 	tls->disable_ifnet_pending = true;
283728d0a740SAndrew Gallatin 	tls->inp = inp;
283828d0a740SAndrew Gallatin 	SOCK_UNLOCK(so);
283928d0a740SAndrew Gallatin 	TASK_INIT(&tls->disable_ifnet_task, 0, ktls_disable_ifnet_help, tls);
284028d0a740SAndrew Gallatin 	(void)taskqueue_enqueue(taskqueue_thread, &tls->disable_ifnet_task);
284128d0a740SAndrew Gallatin }
28424150a5a8SAndrew Gallatin #endif
2843